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\input texinfo
@setfilename ../../info/ede.info
@settitle Emacs Development Environment
@include docstyle.texi
@copying
This file describes EDE, the Emacs Development Environment.
Copyright @copyright{} 1998--2001, 2004--2005, 2008--2024 Free Software
Foundation, Inc.
@quotation
Permission is granted to copy, distribute and/or modify this document
under the terms of the GNU Free Documentation License, Version 1.3 or
any later version published by the Free Software Foundation; with no
Invariant Sections, with the Front-Cover Texts being ``A GNU Manual,''
and with the Back-Cover Texts as in (a) below. A copy of the license
is included in the section entitled ``GNU Free Documentation License.''
(a) The FSF's Back-Cover Text is: ``You have the freedom to copy and
modify this GNU manual.''
@end quotation
@end copying
@dircategory Emacs misc features
@direntry
* EDE: (ede). The Emacs Development Environment.
@end direntry
@titlepage
@center @titlefont{EDE (The Emacs Development Environment)}
@sp 4
@center by Eric Ludlam
@page
@vskip 0pt plus 1filll
@insertcopying
@end titlepage
@page
@macro cedet{}
@i{CEDET}
@end macro
@macro semantic{}
@i{Semantic}
@end macro
@macro srecode{}
@i{SRecode}
@end macro
@macro eieio{}
@i{EIEIO}
@end macro
@macro ede{}
@i{EDE}
@end macro
@macro cogre{}
@i{COGRE}
@end macro
@macro speedbar{}
@i{Speedbar}
@end macro
@contents
@node Top
@top EDE
@comment node-name, next, previous, up
@ede{} is the Emacs Development Environment: an Emacs extension that
simplifies building and debugging programs in Emacs. It attempts to
emulate a typical IDE (Integrated Development Environment). @ede{}
can manage or create your makefiles and other building environment
duties, allowing you to concentrate on writing code rather than
support files. It aims to make it much easier for new programmers to
learn and adopt GNU ways of doing things.
@ifnottex
@insertcopying
@end ifnottex
@menu
* EDE Project Concepts:: @ede{} Project Concepts
* EDE Mode:: Turning on @ede{} mode.
* Quick Start:: Quick start to building a project.
* Creating a project:: Creating a project.
* Modifying your project:: Adding and removing files and targets.
* Building and Debugging:: Initiating a build or debug session.
* Miscellaneous commands:: Other project related commands.
* Extending EDE:: Programming and extending @ede{}.
* GNU Free Documentation License:: The license for this documentation.
@end menu
@node EDE Project Concepts
@chapter @ede{} Project Concepts
@ede{} is a generic interface for managing projects. It specifies a
single set of menus and key bindings, while supporting multiple ways to
express a project via a build system.
In the subsequent chapters, we will describe the different project
types (@pxref{Creating a project}), as well as the commands to build
and debug projects (@pxref{Building and Debugging}).
In @ede{}, a project hierarchy matches a directory hierarchy. The
project's topmost directory is called the @dfn{project root}, and its
subdirectories are @dfn{subprojects}.
Each project can contain multiple @dfn{targets}. A target, at the
simplest level, is a named collection of files within a project. A
target can specify two different types of information:
@enumerate
@item
A collection of files to be added to a distribution (e.g., a tarball
that you intend to distribute to others).
@item
A collection of files that can be built into something else (e.g., a
program or compiled documentation).
@end enumerate
Lastly, @ede{} provides a way for other tools to easily learn file
associations. For example, a program might need to restrict some sort
of search to files in a single target, or to discover the location of
documentation or interface files. @ede{} can provide this
information.
@node EDE Mode
@chapter @ede{} Mode
@ede{} is implemented as a minor mode, which augments other modes such
as C mode, and Texinfo mode. You can enable @ede{} for all buffers by
running the command @code{global-ede-mode}, or by putting this in your
init file:
@example
(global-ede-mode t)
@end example
Activating @ede{} adds a menu named @samp{Development} to the menu
bar. This menu provides several menu items for high-level @ede{}
commands. These menu items, and their corresponding key bindings, are
independent of the type of project you are actually working on.
@node Quick Start
@chapter Quick Start
Once you have @ede{} enabled, you can create a project. This chapter
provides an example C++ project that will create Automake files for
compilation.
@section Step 1: Create root directory
First, lets create a directory for our project. For this example,
we'll start with something in @file{/tmp}.
@example
C-x C-f /tmp/myproject/README @key{RET}
M-x make-directory @key{RET} @key{RET}
@end example
Now put some plain text in your README file to start.
Now, lets create the project:
@example
M-x ede-new @key{RET} Automake @key{RET} myproject @key{RET}
@end example
Nothing visible happened, but if you use @code{dired} to look at the
directory, you should see this:
@example
/tmp/myproject:
total used in directory 32 available 166643476
drwxr-xr-x 2 zappo users 4096 2012-02-23 22:10 .
drwxrwxrwt 73 root root 20480 2012-02-23 22:10 ..
-rw-r--r-- 1 zappo users 195 2012-02-23 22:10 Project.ede
-rw-r--r-- 1 zappo users 10 2012-02-23 22:09 README
@end example
@section Step 2: Create Subdirectories and Files
We'll make a more complex project, so use dired to create some more
directories using the @kbd{+} key, and typing in new directories:
@example
+ include @key{RET}
+ src @key{RET}
@end example
Now I'll short-cut in this tutorial. Create the following files:
@file{include/myproj.hh}
@example
/** myproj.hh ---
*/
#ifndef myproj_hh
#define myproj_hh 1
#define IMPORTANT_MACRO 1
int my_lib_function();
#endif // myproj_hh
@end example
@file{src/main.cpp}
@example
/** main.cpp ---
*/
#include <iostream>
#include "myproj.hh"
int main() @{
@}
#ifdef IMPORTANT_MACRO
int my_fcn() @{
@}
#endif
@end example
@file{src/mylib.cpp}
@example
/** mylib.cpp ---
*
* Shared Library to build
*/
int my_lib_function() @{
@}
@end example
@section Step 3: Create subprojects
@ede{} needs subdirectories to also have projects in them. You can
now create those projects.
With @file{main.cpp} as your current buffer, type:
@example
M-x ede-new @key{RET} Automake @key{RET} src @key{RET}
@end example
and in @file{myproj.hh} as your current buffer, type:
@example
M-x ede-new @key{RET} Automake @key{RET} include @key{RET}
@end example
These steps effectively only create the Project.ede file in which you
will start adding targets.
@section Step 4: Create targets
In order to build a program, you must have targets in your @ede{}
Projects. You can create targets either from a buffer, or from a
@code{dired} directory buffer.
Note: If for some reason a directory list buffer, or file does not have the
@samp{Project} menu item, or if @ede{} key bindings don't work, just
use @kbd{M-x revert-buffer @key{RET}} to force a refresh. Sometimes
creating a new project doesn't restart buffers correctly.
Lets start with the header file. In @file{include/myproj.hh}, you
could use the menu, but we will now start using the @ede{} command prefix
which is @kbd{C-c .}.
@example
C-c . t includes @key{RET} miscellaneous @key{RET} y
@end example
This creates a misc target for holding your includes, and then adds
myproj.hh to the target. Automake (the tool) has better ways to do
this, but for this project, it is sufficient.
Next, visit the @file{src} directory using dired. There should be a
@samp{Project} menu. You can create a new target with
@example
. t myprogram @key{RET} program @key{RET}
@end example
Note that @kbd{. t} is a command for creating a target. This command
is also in the menu. This will create a target that will build a
program. If you want, visit @file{Project.ede} to see the structure
built so far.
Next, place the cursor on @file{main.cpp}, and use @kbd{. a} to add
that file to your target.
@example
. a myprogram @key{RET}
@end example
Note that these prompts often have completion, so you can just press
@kbd{TAB} to complete the name @file{myprogram}.
If you had many files to add to the same target, you could mark them
all in your dired buffer, and add them all at the same time.
Next, do the same for the library by placing the cursor on @file{mylib.cpp}.
@example
. t mylib @key{RET} sharedobject @key{RET}
. a mylib @key{RET}
@end example
@section Step 5: Compile, and fail
Next, we'll try to compile the project, but we aren't done yet, so it
won't work right away.
Visit @file{/tmp/myproject/Project.ede}. We're starting here because
we don't have any program files in this directory yet. Now we can use
the compile command:
@example
C-c . C
@end example
Because this is the very first time, it will create a bunch of files
for you that are required by Automake. It will then use automake to
build the support infrastructure it needs. This step is skipped if
you choose just a @file{Makefile} build system.
After the Automake init, it runs compile. You will immediately
discover the error in main.cpp can't find @file{myproj.hh}. We need
to go fix this.
@section Step 6: Customizing your project
To fix the failed compile, we need to add
@file{/tmp/myproject/include} to the include path.
Visit @file{main.cpp}.
@example
M-x customize-project @key{RET}
@end example
Select the @samp{[Settings]} subgroup of options. Under
@samp{Variable :} click @samp{[INS]}. At this point, you need to be
somewhat savvy with Automake. Add a variable named @samp{CPPFLAGS},
and set the value to @samp{../include}.
You should see something like this:
@example
Variables :
[INS] [DEL] Cons-cell:
Name: AM_CPPFLAGS
Value: -I../include
[INS]
Variables to set in this Makefile.
@end example
Click @samp{[Apply]}. Feel free to visit @file{Project.ede} to see
how it changed the config file.
Compile the whole project again with @kbd{C-c . C} from
@file{main.cpp}. It should now compile.
@section Step 7: Shared library dependency
Note: Supporting shared libraries for Automake in this way is easy,
but doing so from a project of type Makefile is a bit tricky. If you
are creating shared libraries too, stick to Automake projects.
Next, lets add a dependency from @file{main.cpp} on our shared
library. To do that, update main like this:
@example
int main() @{
my_lib_function();
@}
@end example
Now compile with:
@example
C-c . c
@end example
where the lower case @kbd{c} compiles just that target. You should
see an error.
This time, we need to add a dependency from @file{main.cpp} on our shared
library. To do that, we need to customize our target instead of the
project. This is because variables such as the include path are
treated globally, whereas dependencies for a target are target specific.
@example
M-x customize-target @key{RET}
@end example
On the first page, you will see an Ldlibs-local section. Add mylib to
it by first clicking @samp{[INS]}, and they adding the library. It
should look like this:
@example
Ldlibs-Local :
[INS] [DEL] Local Library: libmylib.la
[INS]
Libraries that are part of this project. [Hide Rest]
The full path to these libraries should be specified, such as:
../lib/libMylib.la or ../ar/myArchive.a
@end example
You will also see other variables for library related flags and system
libraries if you need them. Click @samp{[Accept]}, and from
@file{main.cpp}, again compile the whole project to force all
dependent elements to compile:
@example
C-c . C
@end example
@section Step 8: Run your program
You can run your program directly from @ede{}.
@example
C-c . R @key{RET} @key{RET}
@end example
If your program takes command line arguments, you can type them in
when it offers the command line you want to use to run your program.
@node Creating a project
@chapter Creating a project
To create a new project, first visit a file that you want to include
in that project. If you have a hierarchy of directories, first visit
a file in the topmost directory. From this buffer, type @kbd{M-x
ede-new}, or click on the @samp{Create Project} item in the
@samp{Development} menu.
The @command{ede-new} command prompts for the type of project you
would like to create. Each project type has its own benefits or
language specific enhancements. Not all projects that @ede{} supports
also allow creating a new project. Projects such as @code{emacs}
or @code{linux} are designed to recognize existing projects only.
Project types such as @samp{Make} and @samp{Automake} do support
creating new project types with @command{ede-new}.
@itemize
@item
For the @samp{Make} project type, @ede{} creates a @dfn{project file},
called @file{Project.ede}, in each project directory. Information
about the project is stored in this file. This project autogenerates
a @file{Makefile}.
@item
For the @samp{Automake} project type, @ede{} creates a
@file{Project.ede} project file similar to a @samp{Make} project.
Unlike a @samp{Make} project, this project autogenerates a
@file{Makefile.am} file. @ede{} handles the Automake bootstrapping
routines, which import and maintain a @file{configure.am} script and
other required files.
@end itemize
A subproject is merely a project in a subdirectory of another project.
You can create a subproject by using the @command{ede-new} command (or
the @samp{Create Project} menu item), while visiting a buffer in a
subdirectory of the project root. This new project is automatically
added to the parent project, and will be automatically loaded when
@ede{} reads the parent project.
When using a project command that involves a makefile, @ede{} uses
the top-most project's makefile as a starting place for the build. How
the toplevel project handles subprojects in the build process is
dependent on that project's type.
@node Modifying your project
@chapter Modifying your project
In this chapter, we describe the generic features for manipulating
projects, including the targets and files within them. Subsequent
chapters, which describe specific project types, will provide more
detailed information about exactly what these features do.
@menu
* Add/Remove target::
* Add/Remove files::
* Customize Features::
* Project Local Variables::
* EDE Project Features::
@end menu
@node Add/Remove target
@section Add/Remove target
To create a new target, type @kbd{C-c . t} (@code{ede-new-target}) or
use the @samp{Add Target} menu item in the @samp{Project Options}
submenu. This prompts for a target name, and adds the current buffer
to that target.
The @command{ede-new-target} command also prompts for a @dfn{target
type}. Each target type has its own build process and class of files
that it will accept.
To remove a target from the project, type @kbd{M-x ede-delete-target},
or use the @samp{Remove Target} menu item in the @samp{Project
Options} submenu.
@node Add/Remove files
@section Add/Remove files
To add the current file to an existing target, type @kbd{C-c . a}
(@code{ede-add-file}), or use the @samp{Add File} menu item in the
@samp{Target Options} submenu.
You can add a file to more than one target; this is OK.
To remove the current file from a target, type @kbd{C-c . d}
(@code{ede-remove-file}), or use the @samp{Remove File} menu item
in the @samp{Target Options} submenu. If the file belongs to multiple
targets, this command prompts for each target it could be removed
from.
While working in a project, if you visit a file that is not part of an
existing target, @ede{} automatically prompts for a target. If you do
not wish to add the file to any target, you can choose @samp{none}.
You can customize this behavior with the variable
@command{ede-auto-add-method}.
@node Customize Features
@section Customize Features
A project, and its targets, are objects using the @samp{EIEIO} object
system. @xref{Top,,,eieio,EIEIO manual}. These objects have data
fields containing important information related to your work.
If the high-level functions aren't enough, you can tweak all
user-customizable fields at any time by running the command
@command{customize-project} or @command{customize-target}. This loads
the current project or target into a customization buffer, where you
can tweak individual slots. This is usually necessary for complex
projects.
Some project modes do not have a project file, but directly read a
Makefile or other existing file. Instead of directly editing the
object, you can edit the file by typing @kbd{C-c . e}
(@code{ede-edit-file-target}). You should ``rescan'' the project
afterwards (@pxref{Miscellaneous commands}).
@node Project Local Variables
@section Project Local Variables
EDE projects can store and manager project local variables. The
variables are stored in the project, and will be restored when a
project reloads.
Projects which are not stored on disk WILL NOT restore your project
local variables later.
You can use @ref{Customize Features} to of the project to edit the
project local variables. They are under the 'Settings' group as
``Project Local Variables''.
You can also use @kbd{M-x ede-set} to set a new variable local in the
mini buffer.
In multi-level projects such as Automake and Make generating projects,
project local variables are installed from both the TOP most project,
and the local directory's project. In that way, you can have some
variables across your whole project, and some specific to a
subdirectory.
You can use project local variables to set any Emacs variable so that
buffers belonging to different projects can have different settings.
NOTE: When you use project-local variables with @ref{ede-cpp-root},
the format is an association list. For example:
@example
(ede-cpp-root-project "SOMENAME"
:file "/dir/to/some/file"
:local-variables
'((grep-command . "grep -nHi -e ")
(compile-command . "make -f MyCustomMakefile all")))
@end example
@node EDE Project Features
@section EDE Project Features
This section details user facing features of an @ede{} @samp{Make}
style project. An @samp{Automake} project has similar options (but a
direct Automake project does not).
To modify any of the specific features mentioned here, you need to
customize the project or target with @command{customize-project} or
@command{customize-target}.
When you are customizing, you are directly manipulating slot values in
@eieio{} objects. @xref{Extending EDE}, if you are interested in
additional details.
@menu
* Changing Compilers and Flags::
* Configurations::
@end menu
@node Changing Compilers and Flags
@subsection Changing Compilers and Flags
Targets that build stuff need compilers. To change compilers, you
need to customize the desired target.
In the @samp{[Make]} section, you can choose a new compiler or linker
from the list. If a linker you need is not available, you will need
to create a new one. @xref{Compiler and Linker objects}.
If an existing compiler or linker is close, but you need to modify
some flag set such as adding an include path you will need to add a
configuration variable.
To start, you should create the basic setup, and construct a makefile
with @command{ede-proj-regenerate}. Look in the @file{Makefile} to
see what commands are inserted. Once you have determined the variable
you need to modify, you can add a configuration for it.
@xref{Configurations}.
@node Configurations
@subsection Configurations
Configurations specify different ways to build a project. For
example, you may configure a project to be in ``debug'' mode, or
perhaps in ``release'' mode.
The project, and each target type all have a slot named
@code{configuration-variables}. To add new variables to a
configuration find this slot in the custom buffer, and insert a new
configuration. Name it either ``debug'' or ``release'', then insert
some number of name/value pairs to it.
You can have any number of valid configurations too. To add a new
configuration, customize your project. Work in the @samp{[Settings]}
block for ``configurations''. Add a new named configuration here.
To switch between different active configurations, modify the
``configuration default'' slot.
@node Building and Debugging
@chapter Building and Debugging
@ede{} provides the following ``project-aware'' compilation and
debugging commands:
@table @kbd
@item C-c . c
Compile the current target (@code{ede-compile-target}).
@item C-c . C
Compile the entire project (@code{ede-compile-project}).
@item c-c . D
Debug the current target (@code{ede-debug-target}).
@item M-x ede-make-dist
Build a distribution file for your project.
@end table
These commands are also available from the @samp{Development} menu.
@node Miscellaneous commands
@chapter Miscellaneous commands
If you opt to go in and edit @ede{} project files directly---for
instance, by using @kbd{C-c . e} (@pxref{Customize Features})---you
must then ``rescan'' the project files to update the internal data
structures. To rescan the current project, type @kbd{C-c . g}
(@code{ede-rescan-toplevel}).
@ede{} can help you find files in your project, via the command
@kbd{C-c . f} (@code{ede-find-file}). This prompts for a file name;
you need not specify the directory. EDE then tries to visit a file
with that name somewhere in your project.
@ede{} can use external tools to help with file finding. To do this,
customize @code{ede-locate-setup-options}.
@defvar ede-locate-setup-options
@anchor{ede-locate-setup-options}
List of locate objects to try out by default.
Listed in order of preference. If the first item cannot be used in
a particular project, then the next one is tried.
It is always assumed that @dfn{ede-locate-base} is at end of the list.
@end defvar
@ede{} also provides a project display mode for the speedbar
(@pxref{Speedbar,,,emacs,GNU Emacs Manual}). This allows you to view
your source files as they are structured in your project: as a
hierarchical tree, grouped according to target.
To activate the speedbar in this mode, type @kbd{C-c . s}
(@code{ede-speedbar}).
@menu
* Make and Automake projects:: Project types of @samp{ede-project}
* Automake direct projects:: Project interface on hand-written automake files.
* Simple projects:: Projects @ede{} doesn't manage.
@end menu
@node Make and Automake projects
@section Make and Automake projects
A project of @samp{ede-project} type creates a file called
@file{Project.ede} in every project directory. This is used to track
your configuration information. If you configure this project to be
in @samp{Makefile} mode, then this project will autogenerate a
@file{Makefile}. If you configure it in @samp{Automake} mode a
@file{Makefile.am} file will be created. The automake bootstrapping
routines will also import and maintain a configure.am script and a
host of other files required by Automake.
@node Automake direct projects
@section Automake direct projects
The project type that reads @file{Makefile.am} directly is derived
from the sources of the original @file{project-am.el} mode that was
distributed independently. This mode eventually became @ede{}. The
@samp{project-am} project will read existing automake files, but will
not generate them automatically, or create new ones. As such, it is
useful as a browsing tool, or as maintenance in managing file lists.
@node Simple projects
@section Simple Projects
There is a wide array of simple projects. In this case a simple
project is one that detects, or is directed to identify a directory as
belonging to a project, but doesn't provide many features of a typical
@ede{} project. Having the project however allows tools such as
@semantic{} to find sources and perform project level completions.
@menu
* ede-cpp-root:: This project marks the root of a C/C++ code project.
* ede-emacs:: A project for working with Emacs.
* ede-linux:: A project for working with Linux kernels.
* ede-generic-project:: A project type for wrapping build systems with EDE.
* Custom Locate:: Customizing how to locate files in a simple project
@end menu
@node ede-cpp-root
@subsection ede-cpp-root
The @code{ede-cpp-root} project type allows you to create a single
object with no save-file in your @file{.emacs} file. It allows @ede{}
to provide the @semantic{} package with the ability to find header
files quickly.
The @code{ede-cpp-root} class knows a few things about C++ projects,
such as the prevalence of "include" directories, and typical
file-layout stuff. If this isn't sufficient, you can subclass
@code{ede-cpp-root-project} and add your own tweaks in just a few
lines. See the end of this file for an example.
In the most basic case, add this to your @file{.emacs} file, modifying
appropriate bits as needed.
@example
(ede-cpp-root-project "SOMENAME" :file "/dir/to/some/file")
@end example
Replace @var{SOMENAME} with whatever name you want, and the filename
to an actual file at the root of your project. It might be a
Makefile, a README file. Whatever. It doesn't matter. It's just a
key to hang the rest of @ede{} off of.
The most likely reason to create this project, is to speed up
searching for includes files, or to simplify bootstrapping @semantic{}'s
ability to find files without much user interaction. In conjunction
with @semantic{} completion, having a short include path is key. You can
override the default include path and system include path like this:
@example
(ede-cpp-root-project "NAME" :file "FILENAME"
:include-path '( "/include" "../include" "/c/include" )
:system-include-path '( "/usr/include/c++/3.2.2/" )
:compile-command "make compile"
:spp-table '( ("MOOSE" . "")
("CONST" . "const") ) )
@end example
In this case each item in the include path list is searched. If the
directory starts with "/", then that expands to the project root
directory. If a directory does not start with "/", then it is
relative to the default-directory of the current buffer when the file
name is expanded.
The include path only affects C/C++ header files. Use the slot
@code{:header-match-regexp} to change it.
The @code{:system-include-path} allows you to specify absolute names
of include directories where system header files can be found.
These will be applied to files in this project only.
With @code{:compile-command} you can provide a command which should be
run when calling @code{ede-compile-project}.
The @code{:spp-table} provides a list of project specific #define
style macros that are unique to this project, passed in to the
compiler on the command line, or are in special headers.
See the @code{semantic-lex-c-preprocessor-symbol-map} for more
on how to format this entry.
If there is a single file in your project, you can instead set the
@code{:spp-files} to a list of file names relative to the root of your
project. Specifying this is like setting the variable
@code{semantic-lex-c-preprocessor-symbol-file} in semantic.
If you want to override the file-finding tool with your own
function you can do this:
@example
(ede-cpp-root-project "NAME" :file "FILENAME" :locate-fcn 'MYFCN)
@end example
Where @var{MYFCN} is a symbol for a function. The locate function can
be used in place of @code{ede-expand-filename} so you can quickly
customize your custom target to use specialized local routines instead
of the default @ede{} routines. The function symbol must take two
arguments:
@table @var
@item NAME
The name of the file to find.
@item DIR
The directory root for this cpp-root project.
@end table
When creating a project with @code{ede-cpp-root}, you can get
additional configurations via @ref{Project Local Variables}. Be aware
that the format for project local variables is an association list.
You cannot use @kbd{M-x ede-set} and have your project local variables
persist between sessions.
If the cpp-root project style is right for you, but you want a dynamic
loader, instead of hard-coding path name values in your @file{.emacs}, you
can do that too, but you will need to write some lisp code.
To do that, you need to add an entry to the
@code{ede-project-class-files} list, and also provide two functions to
teach @ede{} how to load your project pattern
It would look like this:
@example
(defun MY-FILE-FOR-DIR (&optional dir)
"Return a full file name to the project file stored in DIR."
<write your code here, or return nil>
)
(defun MY-ROOT-FCN ()
"Return the root fcn for `default-directory'"
;; You might be able to use 'ede-cpp-root-project-root'
;; and not write this at all.
)
(defun MY-LOAD (dir)
"Load a project of type `cpp-root' for the directory DIR.
Return nil if there isn't one."
;; Use your preferred construction method here.
(ede-cpp-root-project "NAME" :file (expand-file-name "FILE" dir)
:locate-fcn 'MYFCN)
)
(add-to-list 'ede-project-class-files
(ede-project-autoload "cpp-root"
:name "CPP ROOT"
:file 'ede-cpp-root
:proj-file 'MY-FILE-FOR-DIR
:proj-root 'MY-ROOT-FCN
:load-type 'MY-LOAD
:class-sym 'ede-cpp-root)
t)
@end example
This example only creates an auto-loader, and does not create a new kind
of project.
@xref{ede-cpp-root-project}, for details about the class that defines
the @code{ede-cpp-root} project type.
@node ede-emacs
@subsection ede-emacs
The @code{ede-emacs} project automatically identifies an Emacs source
tree, and enables EDE project mode for it.
It pre-populates the C Preprocessor symbol map for correct parsing,
and has an optimized include file identification function.
@node ede-linux
@subsection ede-linux
The @code{ede-linux} project will automatically identify a Linux
Kernel source tree, and enable EDE project mode for it.
It pre-populates the C Preprocessor symbol map for reasonable parsing,
and has an optimized include file identification function.
Through the variables @code{project-linux-build-directory-default} and
@code{project-linux-architecture-default}, you can set the build
directory and its architecture, respectively. The default is to assume that
the build happens in the source directory and to auto-detect the
architecture; if the auto-detection fails, you will be asked.
@node ede-generic-project
@subsection ede-generic-project
The @code{ede-generic-project} is a project system that makes it easy
to wrap up different kinds of build systems as an EDE project.
Projects such as @ref{ede-emacs} require coding skills to create.
Generic projects also require writing Emacs Lisp code, but the
requirements are minimal. You can then use
@command{customize-project} to configure build commands, includes, and
other options for that project. The configuration is saved in
@file{EDEConfig.el}.
Generic projects are disabled by default because they have the
potential to interfere with other projects. To use the generic
project system to start detecting projects, you need to enable it.
@deffn Command ede-enable-generic-projects
Enable generic project loaders.
This enables generic loaders for projects that are detected using
either a @file{Makefile}, @file{SConstruct}, or @file{CMakeLists}.
You do not need to use this command if you create your own generic
project type.
@end deffn
If you want to create your own generic project loader, you need to
define your own project and target classes, and create an autoloader.
The example for Makefiles looks like this:
@example
;;; MAKEFILE
(defclass ede-generic-makefile-project (ede-generic-project)
((buildfile :initform "Makefile"))
"Generic Project for makefiles.")
(cl-defmethod ede-generic-setup-configuration ((proj ede-generic-makefile-project) config)
"Set up a configuration for Make."
(oset config build-command "make -k")
(oset config debug-command "gdb "))
(ede-generic-new-autoloader "generic-makefile" "Make"
"Makefile" 'ede-generic-makefile-project)
@end example
This example project will detect any directory with the file
@file{Makefile} in it as belonging to this project type.
Customization of the project will allow you to make build and debug
commands more precise.
@node Custom Locate
@subsection Custom Locate
The various simple project styles all have one major drawback, which
is that the files in the project are not completely known to EDE@.
When the EDE API is used to try and file files by some reference name
in the project, then that could fail.
@ede{} can therefore use some external locate commands, such as the unix
``locate'' command, or ``GNU Global''.
Configuration of the tool you want to use such as @code{locate}, or
@code{global} will need to be done without the aid of @ede{}. Once
configured, however, @ede{} can use it.
To enable one of these tools, set the variable
@code{ede-locate-setup-options} with the names of different locate
objects. @ref{Miscellaneous commands}.
Configure this in your @file{.emacs} before loading in CEDET or EDE@.
If you want to add support for GNU Global, your configuration would
look like this:
@example
(setq ede-locate-setup-options '(ede-locate-global ede-locate-base))
@end example
That way, when a search needs to be done, it will first try using
GLOBAL@. If global is not available for that directory, then it will
revert to the base locate object. The base object always fails to
find a file.
You can add your own locate tool but subclassing from
@code{ede-locate-base}. The subclass should also implement two
methods. See the code in @file{ede-locate.el} for GNU Global as a
simple example.
@@TODO - Add ID Utils and CScope examples
More on idutils and cscope is in the CEDET manual, and they each have
their own section.
@node Extending EDE
@chapter Extending @ede{}
This chapter is intended for users who want to write new parts or fix
bugs in @ede{}. A knowledge of Emacs Lisp, and some @eieio{}(CLOS) is
required.
@ede{} uses @eieio{}, the CLOS package for Emacs, to define two object
superclasses, specifically the PROJECT and TARGET@. All commands in
@ede{} are usually meant to address the current project, or current
target.
All specific projects in @ede{} derive subclasses of the @ede{}
superclasses. In this way, specific behaviors such as how a project is
saved, or how a target is compiled can be customized by a project author
in detail. @ede{} communicates to these project objects via an API
using methods. The commands you use in @ede{} mode are high-level
functional wrappers over these methods. @xref{Top,,, eieio, EIEIO
manual}, for details on using @eieio{} to extending classes, and writing
methods.
If you intend to extend @ede{}, it is most likely that a new target type is
needed in one of the existing project types. The rest of this chapter
will discuss extending the @code{ede-project} class, and its targets.
See @file{project-am.el} for basic details on adding targets to it.
For the @code{ede-project} type, the core target class is called
@code{ede-proj-target}. Inheriting from this will give you everything
you need to start, including adding your sources into the makefile. If
you also need additional rules in the makefile, you will want to inherit
from @code{ede-proj-target-makefile} instead. You may want to also add
new fields to track important information.
If you are building currently unsupported code into a program or shared
library, it is unlikely you need a new target at all. Instead you
would need to create a new compiler or linker object that compiles
source code of the desired type. @ref{Compiler and Linker objects}.
Once your new class exists, you will want to fill in some basic methods.
See the @file{ede-skel.el} file for examples of these. The files
@file{ede-proj-info.el} and @file{ede-proj-elisp.el} are two interesting
examples.
@menu
* Development Overview::
* Detecting a Project::
* User interface methods:: Methods associated with key bindings
* Base project methods:: The most basic methods on @ede{} objects.
* Sourcecode objects:: Defining new sourcecode classes.
* Compiler and Linker objects:: Defining new compilers and linkers.
* Project:: Details of project classes.
* Targets:: Details of target classes.
* Sourcecode:: Details of source code classes.
* Compilers:: Details of compiler classes.
@end menu
@node Development Overview
@section Development Overview
@ede{} is made up of a series of classes implemented with @eieio{}.
These classes define an interface that can be used to create different
types of projects.
@ede{} defines two superclasses which are @code{ede-project} and
@code{ede-target}. All commands in @ede{} are usually meant to
address the current project, or current target.
All specific projects in @ede{} derive subclasses of the @ede{} superclasses.
In this way, specific behaviors such as how a project is saved, or how a
target is compiled can be customized by a project author in detail. @ede{}
communicates to these project objects via an API using methods. The
commands you use in @ede{} mode are high-level functional wrappers over
these methods.
Some example project types are:
@table @code
@item project-am
Automake project which reads existing Automake files.
@item ede-proj-project
This project type will create @file{Makefiles},
or @file{Makefile.am} files to compile your project.
@item ede-linux
This project type will detect linux source trees.
@item ede-emacs
This project will detect an Emacs source tree.
@end table
There are several other project types as well.
The first class you need to know to create a new project type is
@code{ede-project-autoload}. New instances of this class are needed
to define how Emacs associates different files/buffers with different
project types. All the autoloads are kept in the variable
@code{ede-project-class-files}.
The next most important class to know is @code{ede-project}. This is
the baseclass defines how all projects behave. The basic pattern for
a project is that there is one project per directory, and the topmost
project or directory defines the project as a whole.
Key features of @code{ede-project} are things like name and version
number. It also holds a list of @code{ede-target} objects and a list
of sub projects, or more @code{ede-project} objects.
New project types must subclass @code{ede-project} to add special
behavior. New project types also need to subclass @code{ede-target} to
add specialty behavior.
In this way, the common @ede{} interface is designed to work against
@code{ede-project}, and thus all subclasses.
@code{ede-project} subclasses @code{ede-project-placeholder}. This is
the minimum necessary project needed to be cached between runs of
Emacs. This way, Emacs can track all projects ever seen, without
loading those projects into memory.
Here is a high-level UML diagram for the @ede{} system created with @cogre{}..
@example
+-----------------------+ +-----------------------+
| | |ede-project-placeholder|
|ede-project-class-files| +-----------------------+
| | +-----------------------+
+-----------------------+ +-----------------------+
/\ ^
\/ /_\
| |
+--------------------+ +-----------+ +----------+
|ede-project-autoload| |ede-project| |ede-target|
+--------------------+<>--------------+-----------+<>-------+----------+
+--------------------+ +-----------+ +----------+
+--------------------+ +-----------+ +----------+
^
/_\
|
+---------------------+-----------------+
| | |
| | |
| | |
+----------------+ +-------------------+ +---------+
|ede-proj-project| |project-am-makefile| |ede-emacs|
+----------------+ +-------------------+ +---------+
+----------------+ +-------------------+ +---------+
+----------------+ +-------------------+ +---------+
@end example
@node Detecting a Project
@section Detecting a Project
Project detection happens with the list of @code{ede-project-autoload}
instances stored in @code{ede-project-class-files}. The full project
detection scheme works like this:
@table @asis
@item Step 1:
@code{find-file-hook} calls @code{ede-turn-on-hook} on BUFFER.
@item Step 2:
@code{ede-turn-on-hook} turns on @code{ede-minor-mode}
@item Step 3:
@code{ede-minor-mode} looks to see if BUFFER is associated with any
open projects. If not, it calls @code{ede-load-project-file} to find
a project associated with the current directory BUFFER is in.
@item Step 4:
@code{ede-minor-mode} associates the found project with the current
buffer with a series of variables, such as @code{ede-object}, and
@code{ede-object-project} and @code{ede-object-root-project}.
@end table
Once a buffer is associated, @ede{} minor mode commands will operate
on that buffer.
The function @code{ede-load-project-file} is at the heart of detecting
projects, and it works by looping over all the known project autoload
types in @code{ede-project-autoload} using the utility
@code{ede-directory-project-p}.
The function @code{ede-directory-project-p} will call
@code{ede-dir-to-projectfile} on every @code{ede-project-autoload}
until one of them returns true. The method
@code{ede-dir-to-projectfile} in turn gets the @code{:proj-file} slot
from the autoload. If it is a string (i.e., a project file name), it
checks to see if that exists in BUFFER's directory. If it is a
function, then it calls that function and expects it to return a file
name or @code{nil}. If the file exists, then this directory is assumed to be
part of a project, and @code{ede-directory-project-p} returns the
instance of @code{ede-project-autoload} that matched.
If the current directory contains the file @code{.ede-ignore} then
that directory is automatically assumed to contain no projects, even
if there is a matching pattern. Use this type of file in a directory
that may contain many other sub projects, but still has a Makefile of
some sort.
If the current directory is a project, then @ede{} scans upwards till
it finds the top of the project. It does this by calling
@code{ede-toplevel-project}. If this hasn't already been discovered,
the directories as scanned upward one at a time until a directory with
no project is found. The last found project becomes the project
root. If the found instance of @code{ede-project-autoload} has a
valid @code{proj-root} slot value, then that function is called instead
of scanning the project by hand. Some project types have a short-cut
for determining the root of a project, so this comes in handy.
Getting back to @code{ede-load-project-file}, this now has an instance
of @code{ede-project-autoload}. It uses the @code{load-type} slot to
both autoload in the project type, and to create a new instance of the
project type found for the root of the project. That project is added
to the global list of all projects. All subprojects are then created
and assembled into the project data structures.
@node User interface methods
@section User interface methods
These methods are core behaviors associated with user commands.
If you do not implement a method, there is a reasonable default that
may do what you need.
@table @code
@item project-add-file
Add a file to your project. Override this if you want to put new
sources into different fields depending on extension, or other details.
@item project-remove-file
Reverse of project-add-file.
@item project-compile-target
Override this if you want to do something special when the user
"compiles" this target.
@item project-debug-target
What to do when a user wants to debug your target.
@item project-update-version
Easily update the version number of your project.
@item project-edit-file-target
Edit the file the project's information is stored in.
@item project-new-target
Create a new target in a project.
@item project-delete-target
Delete a target from a project.
@item project-make-dist
Make a distribution (tar archive) of the project.
@item project-rescan
Rescan a project file, changing the data in the existing objects.
@end table
@node Base project methods
@section Base project methods
These methods are important for querying base information from project
and target types:
@table @code
@item ede-name
Return a string that is the name of this target.
@item ede-target-name
Return a string that is the name of the target used by a Make system.
@item ede-description
A brief description of the project or target. This is currently used
by the @samp{ede-speedbar} interface.
@item ede-want-file-p
Return non-@code{nil} if a target will accept a given file.
It is generally unnecessary to override this. See the section on source
code.
@item ede-buffer-mine
Return non-@code{nil} if a buffer belongs to this target. Used during
association when a file is loaded. It is generally unnecessary to
override this unless you keep auxiliary files.
@end table
These methods are used by the semantic package extensions.
@xref{Top,,, semantic, Semantic manual}.
@table @code
@item ede-buffer-header-file
Return a header file belonging to a given buffer. Prototypes are place
there when appropriate
@item ede-buffer-documentation-files
Return the documentation file information about this file would be
stored in.
@item ede-documentation
List all documentation a project or target is responsible for.
@end table
@node Sourcecode objects
@section Sourcecode objects
@ede{} projects track source file / target associates via source code
objects. The definitions for this is in @file{ede-source.el}. A source
code object contains methods that know how to identify a file as being
of that class, (i.e., a C file ends with @file{.c}). Some targets can
handle many different types of sources which must all be compiled
together. For example, a mixed C and C++ program would have
instantiations of both sourcecode types.
When a target needs to know if it will accept a source file, it
references its list of source code objects. These objects then make
that decision.
Source code objects are stored in the target objects as a list of
symbols, where the symbol's value is the object. This enables the
project save file mechanism to work.
Here is an example for an instantiation of an Emacs Lisp source code object:
@example
(defvar ede-source-emacs
(ede-sourcecode "ede-emacs-source"
:name "Emacs Lisp"
:sourcepattern "\\.el$"
:garbagepattern '("*.elc"))
"Emacs Lisp source code definition.")
@end example
If you want to recycle parts of an existing sourcecode object, you can
clone the original, and then just tweak the parts that are different.
For example:
@example
(defvar ede-source-emacs-autoload
(clone ede-source-emacs "ede-source-emacs-autoload"
:name "Emacs Lisp Autoload"
:sourcepattern "-loaddefs\\.el")
"Emacs Lisp autoload source code.")
@end example
In this case, the garbage pattern is the same.
@xref{Sourcecode}.
@node Compiler and Linker objects
@section Compiler and Linker objects
In order for a target to create a @file{Makefile}, it must know how to
compile the sources into the program or desired data file, and
possibly link them together.
A compiler object instantiation is used to associate a given target
with a given source code type. Some targets can handle many types of
sources, and thus has many compilers available to it. Some targets
may have multiple compilers for a given type of source code.
@ede{} will examine the actual source files in a target, cross reference
that against the compiler list to come up with the final set of
compilers that will be inserted into the Makefile.
Compiler instantiations must also insert variables specifying the
compiler it plans to use, in addition to creating Automake settings for
@file{configure.ac} when appropriate.
Compiler objects are stored in the target objects as a list of
symbols, where the symbols value is the object. This enables the
project output mechanism to work more efficiently.
Targets will also have a special "compiler" slot which lets a user
explicitly choose the compiler they want to use.
Here is an example for texinfo:
@example
(defvar ede-makeinfo-compiler
(ede-compiler
"ede-makeinfo-compiler"
:name "makeinfo"
:variables '(("MAKEINFO" . "makeinfo"))
:commands '("makeinfo -o $@ $<")
:autoconf '(("AC_CHECK_PROG" . "MAKEINFO, makeinfo"))
:sourcetype '(ede-makeinfo-source)
)
"Compile texinfo files into info files.")
@end example
@xref{Compilers}.
When creating compiler instantiations, it may be useful to @code{clone}
an existing compiler variable. Cloning allows you to only modify
parts of the original, while keeping the rest of the same.
Modification of the original will result in the clone also being
changed for shared value slots.
The second important object is the linker class. The linker is similar
to the compiler, except several compilers might be used to create some
object files, and only one linker is used to link those objects together.
See @file{ede-proj-obj.el} for examples of the combination.
@defindex pj
@defindex tg
@defindex sc
@defindex cm
@node Project
@section Project
@menu
* ede-project-placeholder::
* ede-project::
* ede-cpp-root-project::
* ede-simple-project::
* ede-simple-base-project::
* ede-proj-project::
* project-am-makefile::
* ede-step-project::
@end menu
@node ede-project-placeholder
@subsection ede-project-placeholder
@pjindex ede-project-placeholder
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-project-placeholder
@table @asis
@item Children:
@xref{ede-project}.
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :name
Type: @code{string} @*
Default Value: @code{"Untitled"}
The name used when generating distribution files.
@item :version
Type: @code{string} @*
Default Value: @code{"1.0"}
The version number used when distributing files.
@item :directory
Type: @code{string}
Directory this project is associated with.
@item :file
Type: @code{string}
File name where this project is stored.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede--project-inode :AFTER proj
Get the inode of the directory project @var{PROJ} is in.
@end deffn
@deffn Method ede-project-root :AFTER this
If a project knows its root, return it here.
Allows for one-project-object-for-a-tree type systems.
@end deffn
@deffn Method ede-find-subproject-for-directory :AFTER proj dir
Find a subproject of @var{PROJ} that corresponds to @var{DIR}.
@end deffn
@deffn Method ede-project-root-directory :AFTER this &optional file
If a project knows its root, return it here.
Allows for one-project-object-for-a-tree type systems.
Optional @var{FILE} is the file to test. It is ignored in preference
of the anchor file for the project.
@end deffn
@deffn Method ede-project-force-load :AFTER this
Make sure the placeholder @var{THIS} is replaced with the real thing.
Return the new object created in its place.
@end deffn
@deffn Method project-interactive-select-target :AFTER this prompt
Make sure placeholder @var{THIS} is replaced with the real thing, and pass through.
@end deffn
@deffn Method project-add-file :AFTER this file
Make sure placeholder @var{THIS} is replaced with the real thing, and pass through.
@end deffn
@node ede-project
@subsection ede-project
@pjindex ede-project
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-project-placeholder
@xref{ede-project-placeholder}.
@table @code
@item ede-project
@table @asis
@item Children:
@xref{ede-cpp-root-project}, @w{ede-emacs-project,} @w{ede-linux-project,} @w{ede-maven-project,} @xref{ede-simple-project}, @xref{ede-simple-base-project}, @xref{ede-proj-project}, @xref{project-am-makefile}, @xref{ede-step-project}.
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :targets
Type: @code{list}
List of top level targets in this project.
@item :tool-cache
Type: @code{list}
List of tool cache configurations in this project.
This allows any tool to create, manage, and persist project-specific settings.
@item :web-site-url
Type: @code{string} @*
URL to this projects web site.
This is a URL to be sent to a web site for documentation.
@item :web-site-directory @*
A directory where web pages can be found by Emacs.
For remote locations use a path compatible with ange-ftp.
You can also use TRAMP for use with rcp & scp.
@item :web-site-file @*
A file which contains the website for this project.
This file can be relative to slot @code{web-site-directory}.
This can be a local file, use ange-ftp or TRAMP.
@item :ftp-site
Type: @code{string} @*
FTP site where this project's distribution can be found.
This FTP site should be in Emacs form, as needed by @code{ange-ftp}, but can
also be of a form used by TRAMP for use with scp, or rcp.
@item :ftp-upload-site
Type: @code{string} @*
FTP Site to upload new distributions to.
This FTP site should be in Emacs form as needed by @code{ange-ftp}.
If this slot is @code{nil}, then use @code{ftp-site} instead.
@item :configurations
Type: @code{list} @*
Default Value: @code{("debug" "release")}
List of available configuration types.
Individual target/project types can form associations between a configuration,
and target specific elements such as build variables.
@item :configuration-default @*
Default Value: @code{"debug"}
The default configuration.
@item :local-variables @*
Default Value: @code{nil}
Project local variables
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-preprocessor-map :AFTER this
Get the pre-processor map for project @var{THIS}.
@end deffn
@deffn Method ede-subproject-relative-path :AFTER proj &optional parent-in
Get a path name for @var{PROJ} which is relative to the parent project.
If PARENT is specified, then be relative to the PARENT project.
Specifying PARENT is useful for sub-sub projects relative to the root project.
@end deffn
@deffn Method eieio-speedbar-description :AFTER obj
Provide a speedbar description for @var{OBJ}.
@end deffn
@deffn Method ede-map-any-target-p :AFTER this proc
For project @var{THIS}, map @var{PROC} to all targets and return if any non-@code{nil}.
Return the first non-@code{nil} value returned by @var{PROC}.
@end deffn
@deffn Method ede-map-subprojects :AFTER this proc
For object @var{THIS}, execute @var{PROC} on all direct subprojects.
This function does not apply @var{PROC} to sub-sub projects.
See also @dfn{ede-map-all-subprojects}.
@end deffn
@deffn Method ede-convert-path :AFTER this path
Convert path in a standard way for a given project.
Default to making it project relative.
Argument @var{THIS} is the project to convert @var{PATH} to.
@end deffn
@deffn Method ede-name :AFTER this
Return a short-name for @var{THIS} project file.
Do this by extracting the lowest directory name.
@end deffn
@deffn Method ede-set-project-variables :AFTER project &optional buffer
Set variables local to @var{PROJECT} in @var{BUFFER}.
@end deffn
@deffn Method eieio-speedbar-derive-line-path :AFTER obj &optional depth
Return the path to @var{OBJ}.
Optional @var{DEPTH} is the depth we start at.
@end deffn
@deffn Method ede-map-all-subprojects :AFTER this allproc
For object @var{THIS}, execute PROC on @var{THIS} and all subprojects.
This function also applies PROC to sub-sub projects.
See also @dfn{ede-map-subprojects}.
@end deffn
@deffn Method project-update-version :AFTER ot
The @code{:version} of the project @var{OT} has been updated.
Handle saving, or other detail.
@end deffn
@deffn Method ede-buffer-header-file :AFTER this buffer
Return @code{nil}, projects don't have header files.
@end deffn
@deffn Method ede-buffer-documentation-files :AFTER this buffer
Return all documentation in project @var{THIS} based on @var{BUFFER}.
@end deffn
@deffn Method ede-map-targets :AFTER this proc
For object @var{THIS}, execute @var{PROC} on all targets.
@end deffn
@deffn Method ede-buffer-mine :AFTER this buffer
Return non-@code{nil} if object @var{THIS} lays claim to the file in @var{BUFFER}.
@end deffn
@deffn Method ede-object-keybindings :BEFORE this
Retrieves the slot @code{keybindings} from an object of class @code{ede-project}
@end deffn
@deffn Method ede-description :AFTER this
Return a description suitable for the minibuffer about @var{THIS}.
@end deffn
@deffn Method eieio-speedbar-object-children :AFTER this
Return the list of speedbar display children for @var{THIS}.
@end deffn
@deffn Method project-make-dist :AFTER this
Build a distribution for the project based on @var{THIS} project.
@end deffn
@deffn Method ede-system-include-path :AFTER this
Get the system include path used by project @var{THIS}.
@end deffn
@deffn Method project-new-target-custom :AFTER proj
Create a new target. It is up to the project @var{PROJ} to get the name.
@end deffn
@deffn Method ede-subproject-p :AFTER proj
Return non-@code{nil} if @var{PROJ} is a sub project.
@end deffn
@deffn Method ede-expand-filename :AFTER this filename &optional force
Return a fully qualified file name based on project @var{THIS}.
@var{FILENAME} should be just a filename which occurs in a directory controlled
by this project.
Optional argument @var{FORCE} forces the default filename to be provided even if it
doesn't exist.
@end deffn
@deffn Method ede-menu-items-build :AFTER obj &optional current
Return a list of menu items for building project @var{OBJ}.
If optional argument @var{CURRENT} is non-@code{nil}, return sub-menu code.
@end deffn
@deffn Method ede-update-version-in-source :AFTER this version
Change occurrences of a version string in sources.
In project @var{THIS}, cycle over all targets to give them a chance to set
their sources to @var{VERSION}.
@end deffn
@deffn Method project-new-target :AFTER proj &rest args
Create a new target. It is up to the project @var{PROJ} to get the name.
@end deffn
@deffn Method project-compile-project :AFTER obj &optional command
Compile the entire current project @var{OBJ}.
Argument @var{COMMAND} is the command to use when compiling.
@end deffn
@deffn Method eieio-speedbar-object-buttonname :AFTER object
Return a string to use as a speedbar button for @var{OBJECT}.
@end deffn
@deffn Method ede-map-project-buffers :AFTER this proc
For @var{THIS}, execute @var{PROC} on all buffers belonging to @var{THIS}.
@end deffn
@deffn Method ede-expand-filename-impl :AFTER this filename &optional force
Return a fully qualified file name based on project @var{THIS}.
@var{FILENAME} should be just a filename which occurs in a directory controlled
by this project.
Optional argument @var{FORCE} forces the default filename to be provided even if it
doesn't exist.
@end deffn
@deffn Method eieio-done-customizing :AFTER proj
Call this when a user finishes customizing @var{PROJ}.
@end deffn
@deffn Method ede-html-documentation :AFTER this
Return a list of HTML files provided by project @var{THIS}.
@end deffn
@deffn Method ede-documentation :AFTER this
Return a list of files that provides documentation.
Documentation is not for object @var{THIS}, but is provided by @var{THIS} for other
files in the project.
@end deffn
@deffn Method project-interactive-select-target :AFTER this prompt
Interactively query for a target that exists in project @var{THIS}.
Argument @var{PROMPT} is the prompt to use when querying the user for a target.
@end deffn
@deffn Method ede-target-in-project-p :AFTER proj target
Is @var{PROJ} the parent of @var{TARGET}?
If @var{TARGET} belongs to a subproject, return that project file.
@end deffn
@deffn Method ede-find-target :AFTER proj buffer
Fetch the target in @var{PROJ} belonging to @var{BUFFER} or @code{nil}.
@end deffn
@deffn Method ede-add-subproject :AFTER proj-a proj-b
Add into @var{PROJ-A}, the subproject @var{PROJ-B}.
@end deffn
@deffn Method ede-commit-project :AFTER proj
Commit any change to @var{PROJ} to its file.
@end deffn
@deffn Method project-dist-files :AFTER this
Return a list of files that constitutes a distribution of @var{THIS} project.
@end deffn
@deffn Method ede-object-menu :BEFORE this
Retrieves the slot @code{menu} from an object of class @code{ede-project}
@end deffn
@deffn Method ede-commit-local-variables :AFTER proj
Commit change to local variables in @var{PROJ}.
@end deffn
@node ede-cpp-root-project
@subsection ede-cpp-root-project
@pjindex ede-cpp-root-project
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-project-placeholder
@xref{ede-project-placeholder}.
@table @code
@item ede-project
@xref{ede-project}.
@table @code
@item ede-cpp-root-project
No children
@end table
@end table
@end table
@end table
@end table
@end table
This class implements the @code{ede-cpp-root} project type.
@xref{ede-cpp-root}, for information about using this project type.
@table @asis
@item Slots:
@table @code
@item :include-path
Type: @code{list} @*
Default Value: @code{("/include" "../include/")}
The default locate function expands filenames within a project.
If a header file (.h, .hh, etc.)@: name is expanded, and
the @code{:locate-fcn} slot is @code{nil}, then the include path is checked
first, and other directories are ignored. For very large
projects, this optimization can save a lot of time.
Directory names in the path can be relative to the current
buffer's @code{default-directory} (not starting with a /). Directories
that are relative to the project's root should start with a /, such
as "/include", meaning the directory @code{include} off the project root
directory.
@item :system-include-path
Type: @code{list} @*
Default Value: @code{nil}
The system include path for files in this project.
C files initialized in an ede-cpp-root-project have their semantic
system include path set to this value. If this is @code{nil}, then the
semantic path is not modified.
@item :spp-table
Type: @code{list} @*
Default Value: @code{nil}
C Preprocessor macros for your files.
Preprocessor symbols will be used while parsing your files.
These macros might be passed in through the command line compiler, or
are critical symbols derived from header files. Providing header files
macro values through this slot improves accuracy and performance.
Use @code{:spp-files} to use these files directly.
@item :spp-files
Type: @code{list} @*
Default Value: @code{nil}
C header file with Preprocessor macros for your files.
The PreProcessor symbols appearing in these files will be used while
parsing files in this project.
See @code{semantic-lex-c-preprocessor-symbol-map} for more on how this works.
@item :header-match-regexp
Type: @code{string} @*
Default Value: @code{"\\.\\(h\\(h\\|xx\\|pp\\|\\+\\+\\)?\\|H\\)$\\|\\<\\w+$"}
Regexp used to identify C/C++ header files.
@item :locate-fcn
Type: @code{(or null function)} @*
Default Value: @code{nil}
The locate function can be used in place of
@dfn{ede-expand-filename} so you can quickly customize your custom target
to use specialized local routines instead of the EDE routines.
The function symbol must take two arguments:
NAME - The name of the file to find.
DIR - The directory root for this cpp-root project.
It should return the fully qualified file name passed in from NAME@.
If that file does not exist, it should return @code{nil}.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method initialize-instance :AFTER this &rest fields
Make sure the @code{:file} is fully expanded.
@end deffn
@deffn Method ede-preprocessor-map :AFTER this
Get the pre-processor map for project @var{this}.
@end deffn
@deffn Method ede-cpp-root-header-file-p :AFTER proj name
Non-@code{nil} if in @var{proj} the filename @var{name} is a header.
@end deffn
@deffn Method ede-system-include-path :AFTER this
Get the system include path used by project @var{this}.
@end deffn
@deffn Method ede-expand-filename-impl :AFTER proj name
Within this project @var{proj}, find the file @var{name}.
This knows details about or source tree.
@end deffn
@node ede-simple-project
@subsection ede-simple-project
@pjindex ede-simple-project
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-project-placeholder
@xref{ede-project-placeholder}.
@table @code
@item ede-project
@xref{ede-project}.
@table @code
@item ede-simple-project
No children
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-commit-project :AFTER proj
Commit any change to @var{PROJ} to its file.
@end deffn
@node ede-simple-base-project
@subsection ede-simple-base-project
@pjindex ede-simple-base-project
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-project-placeholder
@xref{ede-project-placeholder}.
@table @code
@item ede-project
@xref{ede-project}.
@table @code
@item ede-simple-base-project
No children
@end table
@end table
@end table
@end table
@end table
@end table
EDE Simple project base class.
This one project could control a tree of subdirectories.
@table @asis
@end table
@node ede-proj-project
@subsection ede-proj-project
@pjindex ede-proj-project
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-project-placeholder
@xref{ede-project-placeholder}.
@table @code
@item ede-project
@xref{ede-project}.
@table @code
@item ede-proj-project
No children
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :makefile-type
Type: @code{symbol} @*
Default Value: @code{Makefile}
The type of Makefile to generate.
Can be one of @code{'Makefile}, 'Makefile.in, or 'Makefile.am.
If this value is NOT @code{'Makefile}, then that overrides the @code{:makefile} slot
in targets.
@item :variables
Type: @code{list} @*
Default Value: @code{nil}
Variables to set in this Makefile.
@item :configuration-variables
Type: @code{list} @*
Default Value: @code{("debug" (("DEBUG" . "1")))}
Makefile variables to use in different configurations.
These variables are used in the makefile when a configuration becomes active.
@item :inference-rules @*
Default Value: @code{nil}
Inference rules to add to the makefile.
@item :include-file @*
Default Value: @code{nil}
Additional files to include.
These files can contain additional rules, variables, and customizations.
@item :automatic-dependencies
Type: @code{boolean} @*
Default Value: @code{t}
Non-@code{nil} to do implement automatic dependencies in the Makefile.
@item :metasubproject
Type: @code{boolean} @*
Default Value: @code{nil}
Non-@code{nil} if this is a metasubproject.
Usually, a subproject is determined by a parent project. If multiple top level
projects are grouped into a large project not maintained by EDE, then you need
to set this to non-@code{nil}. The only effect is that the @code{dist} rule will then avoid
making a tar file.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-makefile-create :AFTER this mfilename
Create a Makefile for all Makefile targets in @var{THIS}.
@var{MFILENAME} is the makefile to generate.
@end deffn
@deffn Method ede-proj-makefile-insert-rules :AFTER this
Insert rules needed by @var{THIS} target.
@end deffn
@deffn Method ede-proj-makefile-tags :AFTER this targets
Insert into the current location rules to make recursive TAGS files.
Argument @var{THIS} is the project to create tags for.
Argument @var{TARGETS} are the targets we should depend on for TAGS.
@end deffn
@deffn Method ede-proj-makefile-insert-variables :AFTER this
Insert variables needed by target @var{THIS}.
@end deffn
@deffn Method project-make-dist :AFTER this
Build a distribution for the project based on @var{THIS} target.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-rules :AFTER this
Insert distribution rules for @var{THIS} in a Makefile, such as CLEAN and DIST.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-dependencies :AFTER this
Insert any symbols that the DIST rule should depend on.
Argument @var{THIS} is the project that should insert stuff.
@end deffn
@deffn Method ede-proj-makefile-insert-subproj-rules :AFTER this
Insert a rule for the project @var{THIS} which should be a subproject.
@end deffn
@deffn Method ede-proj-makefile-create-maybe :AFTER this mfilename
Create a Makefile for all Makefile targets in @var{THIS} if needed.
@var{MFILENAME} is the makefile to generate.
@end deffn
@deffn Method ede-proj-configure-test-required-file :AFTER this file
For project @var{THIS}, test that the file @var{FILE} exists, or create it.
@end deffn
@deffn Method ede-proj-setup-buildenvironment :AFTER this &optional force
Setup the build environment for project @var{THIS}.
Handles the Makefile, or a Makefile.am configure.ac combination.
Optional argument @var{FORCE} will force items to be regenerated.
@end deffn
@deffn Method ede-proj-makefile-garbage-patterns :AFTER this
Return a list of patterns that are considered garbage to @var{THIS}.
These are removed with make clean.
@end deffn
@deffn Method ede-proj-configure-synchronize :AFTER this
Synchronize what we know about project @var{THIS} into configure.ac.
@end deffn
@deffn Method ede-proj-makefile-insert-variables-new :AFTER this
Insert variables needed by target @var{THIS}.
NOTE: Not yet in use! This is part of an SRecode conversion of
EDE that is in progress.
@end deffn
@deffn Method ede-proj-makefile-configuration-variables :AFTER this configuration
Return a list of configuration variables from @var{THIS}.
Use @var{CONFIGURATION} as the current configuration to query.
@end deffn
@deffn Method eieio-done-customizing :AFTER proj
Call this when a user finishes customizing this object.
Argument @var{PROJ} is the project to save.
@end deffn
@deffn Method ede-proj-configure-recreate :AFTER this
Delete project @var{THIS}'s configure script and start over.
@end deffn
@deffn Method ede-proj-makefile-insert-user-rules :AFTER this
Insert user specified rules needed by @var{THIS} target.
This is different from @dfn{ede-proj-makefile-insert-rules} in that this
function won't create the building rules which are auto created with
automake.
@end deffn
@deffn Method ede-proj-dist-makefile :AFTER this
Return the name of the Makefile with the DIST target in it for @var{THIS}.
@end deffn
@deffn Method ede-proj-configure-file :AFTER this
The configure.ac script used by project @var{THIS}.
@end deffn
@deffn Method ede-commit-project :AFTER proj
Commit any change to @var{PROJ} to its file.
@end deffn
@deffn Method project-dist-files :AFTER this
Return a list of files that constitutes a distribution of @var{THIS} project.
@end deffn
@deffn Method ede-commit-local-variables :AFTER proj
Commit change to local variables in @var{PROJ}.
@end deffn
@node project-am-makefile
@subsection project-am-makefile
@pjindex project-am-makefile
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-project-placeholder
@xref{ede-project-placeholder}.
@table @code
@item ede-project
@xref{ede-project}.
@table @code
@item project-am-makefile
No children
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-am-subtree :AFTER ampf subdir
Return the sub project in @var{AMPF} specified by @var{SUBDIR}.
@end deffn
@deffn Method project-targets-for-file :AFTER proj
Return a list of targets the project @var{PROJ}.
@end deffn
@deffn Method project-new-target :AFTER proj &optional name type
Create a new target named @var{NAME}.
Argument @var{TYPE} is the type of target to insert. This is a string
matching something in @code{project-am-type-alist} or type class symbol.
Despite the fact that this is a method, it depends on the current
buffer being in order to provide a smart default target type.
@end deffn
@node ede-step-project
@subsection ede-step-project
@pjindex ede-step-project
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-project-placeholder
@xref{ede-project-placeholder}.
@table @code
@item ede-project
@xref{ede-project}.
@table @code
@item ede-step-project
No children
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :init-variables
Type: @code{list} @*
Default Value: @code{nil}
Variables to set in this Makefile, at top of file.
@item :additional-variables
Type: @code{(or null list)} @*
Default Value: @code{nil}
Arbitrary variables needed from this project.
It is safe to leave this blank.
@item :additional-rules
Type: @code{(or null list)} @*
Default Value: @code{nil}
Arbitrary rules and dependencies needed to make this target.
It is safe to leave this blank.
@item :installation-domain
Type: @code{symbol} @*
Default Value: @code{user}
Installation domain specification.
The variable GNUSTEP_INSTALLATION_DOMAIN is set at this value.
@item :preamble
Type: @code{(or null list)} @*
Default Value: @code{("GNUmakefile.preamble")}
The auxiliary makefile for additional variables.
Included just before the specific target files.
@item :postamble
Type: @code{(or null list)} @*
Default Value: @code{("GNUmakefile.postamble")}
The auxiliary makefile for additional rules.
Included just after the specific target files.
@item :metasubproject
Type: @code{boolean} @*
Default Value: @code{nil}
Non-@code{nil} if this is a metasubproject.
Usually, a subproject is determined by a parent project. If multiple top level
projects are grouped into a large project not maintained by EDE, then you need
to set this to non-@code{nil}. The only effect is that the @code{dist} rule will then avoid
making a tar file.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-makefile-create :AFTER this mfilename
Create a GNUmakefile for all Makefile targets in @var{THIS}.
@var{MFILENAME} is the makefile to generate.
@end deffn
@deffn Method project-make-dist :AFTER this
Build a distribution for the project based on @var{THIS} target.
@end deffn
@deffn Method ede-proj-makefile-create-maybe :AFTER this mfilename
Create a Makefile for all Makefile targets in @var{THIS} if needed.
@var{MFILENAME} is the makefile to generate.
@end deffn
@deffn Method ede-proj-setup-buildenvironment :AFTER this &optional force
Setup the build environment for project @var{THIS}.
Handles the Makefile, or a Makefile.am configure.ac combination.
Optional argument @var{FORCE} will force items to be regenerated.
@end deffn
@deffn Method eieio-done-customizing :AFTER proj
Call this when a user finishes customizing this object.
Argument @var{PROJ} is the project to save.
@end deffn
@deffn Method ede-proj-dist-makefile :AFTER this
Return the name of the Makefile with the DIST target in it for @var{THIS}.
@end deffn
@deffn Method ede-commit-project :AFTER proj
Commit any change to @var{PROJ} to its file.
@end deffn
@deffn Method project-dist-files :AFTER this
Return a list of files that constitutes a distribution of @var{THIS} project.
@end deffn
@deffn Method ede-commit-local-variables :AFTER proj
Commit change to local variables in @var{PROJ}.
@end deffn
@node Targets
@section Targets
@menu
* ede-target::
* ede-proj-target::
* ede-proj-target-makefile::
* semantic-ede-proj-target-grammar::
* ede-proj-target-makefile-objectcode::
* ede-proj-target-makefile-archive::
* ede-proj-target-makefile-program::
* ede-proj-target-makefile-shared-object::
* ede-proj-target-elisp::
* ede-proj-target-elisp-autoloads::
* ede-proj-target-makefile-miscelaneous::
* ede-proj-target-makefile-info::
* ede-proj-target-scheme::
* project-am-target::
* project-am-objectcode::
* project-am-program::
* project-am-header-noinst::
* project-am-header-inst::
* project-am-lisp::
* project-am-texinfo::
* project-am-man::
@end menu
@node ede-target
@subsection ede-target
@tgindex ede-target
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@table @asis
@item Children:
@w{ede-cpp-root-target,} @w{ede-emacs-target-c,} @w{ede-emacs-target-el,} @w{ede-emacs-target-misc,} @w{ede-linux-target-c,} @w{ede-linux-target-misc,} @w{ede-maven-target-java,} @w{ede-maven-target-c,} @w{ede-maven-target-misc,} @w{ede-simple-target,} @xref{ede-proj-target}, @xref{project-am-target}.
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :name
Type: @code{string}
Name of this target.
@item :path
Type: @code{string}
The path to the sources of this target.
Relative to the path of the project it belongs to.
@item :source
Type: @code{list} @*
Default Value: @code{nil}
Source files in this target.
@item :versionsource
Type: @code{list} @*
Default Value: @code{nil}
Source files with a version string in them.
These files are checked for a version string whenever the EDE version
of the master project is changed. When strings are found, the version
previously there is updated.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-preprocessor-map :AFTER this
Get the pre-processor map for project @var{THIS}.
@end deffn
@deffn Method eieio-speedbar-description :AFTER obj
Provide a speedbar description for @var{OBJ}.
@end deffn
@deffn Method project-compile-target :AFTER obj &optional command
Compile the current target @var{OBJ}.
Argument @var{COMMAND} is the command to use for compiling the target.
@end deffn
@deffn Method project-debug-target :AFTER obj
Run the current project target @var{OBJ} in a debugger.
@end deffn
@deffn Method ede-convert-path :AFTER this path
Convert path in a standard way for a given project.
Default to making it project relative.
Argument @var{THIS} is the project to convert @var{PATH} to.
@end deffn
@deffn Method ede-name :AFTER this
Return the name of @var{THIS} target.
@end deffn
@deffn Method ede-target-buffer-in-sourcelist :AFTER this buffer source
Return non-@code{nil} if object @var{THIS} is in @var{BUFFER} to a @var{SOURCE} list.
Handles complex path issues.
@end deffn
@deffn Method eieio-speedbar-derive-line-path :AFTER obj &optional depth
Return the path to @var{OBJ}.
Optional @var{DEPTH} is the depth we start at.
@end deffn
@deffn Method ede-buffer-header-file :AFTER this buffer
There are no default header files in EDE@.
Do a quick check to see if there is a Header tag in this buffer.
@end deffn
@deffn Method project-remove-file :AFTER ot fnnd
Remove the current buffer from project target @var{OT}.
Argument @var{FNND} is an argument.
@end deffn
@deffn Method ede-buffer-documentation-files :AFTER this buffer
Check for some documentation files for @var{THIS}.
Also do a quick check to see if there is a Documentation tag in this @var{BUFFER}.
@end deffn
@deffn Method ede-map-target-buffers :AFTER this proc
For @var{THIS}, execute @var{PROC} on all buffers belonging to @var{THIS}.
@end deffn
@deffn Method eieio-speedbar-child-description :AFTER obj
Provide a speedbar description for a plain-child of @var{OBJ}.
A plain child is a child element which is not an EIEIO object.
@end deffn
@deffn Method ede-object-keybindings :BEFORE this
Retrieves the slot @code{keybindings} from an object of class @code{ede-target}
@end deffn
@deffn Method ede-description :AFTER this
Return a description suitable for the minibuffer about @var{THIS}.
@end deffn
@deffn Method eieio-speedbar-object-children :AFTER this
Return the list of speedbar display children for @var{THIS}.
@end deffn
@deffn Method ede-system-include-path :AFTER this
Get the system include path used by project @var{THIS}.
@end deffn
@deffn Method ede-object-sourcecode :BEFORE this
Retrieves the slot @code{sourcetype} from an object of class @code{ede-target}
@end deffn
@deffn Method ede-expand-filename :AFTER this filename &optional force
Return a fully qualified file name based on target @var{THIS}.
@var{FILENAME} should be a filename which occurs in a directory in which @var{THIS} works.
Optional argument @var{FORCE} forces the default filename to be provided even if it
doesn't exist.
@end deffn
@deffn Method ede-menu-items-build :AFTER obj &optional current
Return a list of menu items for building target @var{OBJ}.
If optional argument @var{CURRENT} is non-@code{nil}, return sub-menu code.
@end deffn
@deffn Method ede-want-file-p :AFTER this file
Return non-@code{nil} if @var{THIS} target wants @var{FILE}.
@end deffn
@deffn Method ede-update-version-in-source :AFTER this version
In sources for @var{THIS}, change version numbers to @var{VERSION}.
@end deffn
@deffn Method project-delete-target :AFTER ot
Delete the current target @var{OT} from its parent project.
@end deffn
@deffn Method ede-target-sourcecode :AFTER this
Return the sourcecode objects which @var{THIS} permits.
@end deffn
@deffn Method eieio-speedbar-child-make-tag-lines :AFTER this depth
Create a speedbar tag line for a child of @var{THIS}.
It has depth @var{DEPTH}.
@end deffn
@deffn Method eieio-speedbar-object-buttonname :AFTER object
Return a string to use as a speedbar button for @var{OBJECT}.
@end deffn
@deffn Method eieio-done-customizing :AFTER target
Call this when a user finishes customizing @var{TARGET}.
@end deffn
@deffn Method project-edit-file-target :AFTER ot
Edit the target @var{OT} associated with this file.
@end deffn
@deffn Method ede-documentation :AFTER this
Return a list of files that provides documentation.
Documentation is not for object @var{THIS}, but is provided by @var{THIS} for other
files in the project.
@end deffn
@deffn Method ede-want-file-source-p :AFTER this file
Return non-@code{nil} if @var{THIS} target wants @var{FILE}.
@end deffn
@deffn Method ede-want-file-auxiliary-p :AFTER this file
Return non-@code{nil} if @var{THIS} target wants @var{FILE}.
@end deffn
@deffn Method project-add-file :AFTER ot file
Add the current buffer into project target @var{OT}.
Argument @var{FILE} is the file to add.
@end deffn
@deffn Method ede-target-name :AFTER this
Return the name of @var{THIS} target, suitable for make or debug style commands.
@end deffn
@deffn Method ede-object-menu :BEFORE this
Retrieves the slot @code{menu} from an object of class @code{ede-target}
@end deffn
@node ede-proj-target
@subsection ede-proj-target
@tgindex ede-proj-target
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@table @asis
@item Children:
@xref{ede-proj-target-makefile}, @w{ede-proj-target-aux,} @xref{ede-proj-target-scheme}.
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :name
Type: @code{string}
Name of this target.
@item :path
Type: @code{string}
The path to the sources of this target.
Relative to the path of the project it belongs to.
@item :auxsource
Type: @code{list} @*
Default Value: @code{nil}
Auxiliary source files included in this target.
Each of these is considered equivalent to a source file, but it is not
distributed, and each should have a corresponding rule to build it.
@item :compiler
Type: @code{(or null symbol)} @*
Default Value: @code{nil}
The compiler to be used to compile this object.
This should be a symbol, which contains the object defining the compiler.
This enables save/restore to do so by name, permitting the sharing
of these compiler resources, and global customization thereof.
@item :linker
Type: @code{(or null symbol)} @*
Default Value: @code{nil}
The linker to be used to link compiled sources for this object.
This should be a symbol, which contains the object defining the linker.
This enables save/restore to do so by name, permitting the sharing
of these linker resources, and global customization thereof.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-compile-target :AFTER obj &optional command
Compile the current target @var{OBJ}.
Argument @var{COMMAND} is the command to use for compiling the target.
@end deffn
@deffn Method project-debug-target :AFTER obj
Run the current project target @var{OBJ} in a debugger.
@end deffn
@deffn Method ede-proj-configure-add-missing :AFTER this
Query if any files needed by @var{THIS} provided by automake are missing.
Results in --add-missing being passed to automake.
@end deffn
@deffn Method ede-proj-flush-autoconf :AFTER this
Flush the configure file (current buffer) to accommodate @var{THIS}.
By flushing, remove any cruft that may be in the file. Subsequent
calls to @dfn{ede-proj-tweak-autoconf} can restore items removed by flush.
@end deffn
@deffn Method ede-proj-makefile-insert-rules :AFTER this
Insert rules needed by @var{THIS} target.
@end deffn
@deffn Method project-remove-file :AFTER target file
For @var{TARGET}, remove @var{FILE}.
@var{FILE} must be massaged by @dfn{ede-convert-path}.
@end deffn
@deffn Method ede-proj-configure-create-missing :AFTER this
Add any missing files for @var{THIS} by creating them.
@end deffn
@deffn Method ede-proj-makefile-sourcevar :AFTER this
Return the variable name for @var{THIS}'s sources.
@end deffn
@deffn Method ede-proj-makefile-insert-variables :AFTER this &optional moresource
Insert variables needed by target @var{THIS}.
Optional argument @var{MORESOURCE} is a list of additional sources to add to the
sources variable.
@end deffn
@deffn Method ede-proj-makefile-insert-automake-post-variables :AFTER this
Insert variables needed by target @var{THIS} in Makefile.am after SOURCES.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-dependencies :AFTER this
Insert any symbols that the DIST rule should depend on.
Argument @var{THIS} is the target that should insert stuff.
@end deffn
@deffn Method ede-proj-linkers :AFTER obj
List of linkers being used by @var{OBJ}.
If the @code{linker} slot is empty, concoct one on a first match found
basis for any given type from the @code{availablelinkers} slot.
Otherwise, return the @code{linker} slot.
Converts all symbols into the objects to be used.
@end deffn
@deffn Method ede-proj-makefile-garbage-patterns :AFTER this
Return a list of patterns that are considered garbage to @var{THIS}.
These are removed with make clean.
@end deffn
@deffn Method ede-proj-tweak-autoconf :AFTER this
Tweak the configure file (current buffer) to accommodate @var{THIS}.
@end deffn
@deffn Method ede-proj-compilers :AFTER obj
List of compilers being used by @var{OBJ}.
If the @code{compiler} slot is empty, concoct one on a first match found
basis for any given type from the @code{availablecompilers} slot.
Otherwise, return the @code{compiler} slot.
Converts all symbols into the objects to be used.
@end deffn
@deffn Method project-delete-target :AFTER this
Delete the current target @var{THIS} from its parent project.
@end deffn
@deffn Method ede-proj-makefile-target-name :AFTER this
Return the name of the main target for @var{THIS} target.
@end deffn
@deffn Method eieio-done-customizing :AFTER target
Call this when a user finishes customizing this object.
Argument @var{TARGET} is the project we are completing customization on.
@end deffn
@deffn Method ede-proj-makefile-insert-user-rules :AFTER this
Insert user specified rules needed by @var{THIS} target.
@end deffn
@deffn Method project-add-file :AFTER this file
Add to target @var{THIS} the current buffer represented as @var{FILE}.
@end deffn
@deffn Method ede-proj-makefile-insert-automake-pre-variables :AFTER this
Insert variables needed by target @var{THIS} in Makefile.am before SOURCES.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-filepatterns :AFTER this
Insert any symbols that the DIST rule should depend on.
Argument @var{THIS} is the target that should insert stuff.
@end deffn
@deffn Method ede-proj-makefile-dependency-files :AFTER this
Return a list of source files to convert to dependencies.
Argument @var{THIS} is the target to get sources from.
@end deffn
@deffn Method ede-proj-makefile-insert-source-variables :AFTER this &optional moresource
Insert the source variables needed by @var{THIS}.
Optional argument @var{MORESOURCE} is a list of additional sources to add to the
sources variable.
@end deffn
@node ede-proj-target-makefile
@subsection ede-proj-target-makefile
@tgindex ede-proj-target-makefile
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@table @asis
@item Children:
@xref{semantic-ede-proj-target-grammar}, @xref{ede-proj-target-makefile-objectcode}, @xref{ede-proj-target-elisp}, @xref{ede-proj-target-makefile-miscelaneous}, @xref{ede-proj-target-makefile-info}.
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :makefile
Type: @code{string} @*
Default Value: @code{"Makefile"}
File name of generated Makefile.
@item :partofall
Type: @code{boolean} @*
Default Value: @code{t}
Non-@code{nil} means the rule created is part of the all target.
Setting this to @code{nil} creates the rule to build this item, but does not
include it in the @code{all:} rule.
@item :configuration-variables
Type: @code{list} @*
Default Value: @code{nil}
Makefile variables appended to use in different configurations.
These variables are used in the makefile when a configuration becomes active.
Target variables are always renamed such as foo_CFLAGS, then included into
commands where the variable would usually appear.
@item :rules
Type: @code{list} @*
Default Value: @code{nil}
Arbitrary rules and dependencies needed to make this target.
It is safe to leave this blank.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-makefile-dependencies :AFTER this
Return a string representing the dependencies for @var{THIS}.
Some compilers only use the first element in the dependencies, others
have a list of intermediates (object files), and others don't care.
This allows customization of how these elements appear.
@end deffn
@deffn Method project-compile-target :AFTER obj &optional command
Compile the current target program @var{OBJ}.
Optional argument @var{COMMAND} is the s the alternate command to use.
@end deffn
@deffn Method ede-proj-makefile-insert-rules :AFTER this
Insert rules needed by @var{THIS} target.
@end deffn
@deffn Method ede-proj-makefile-insert-variables :AFTER this &optional moresource
Insert variables needed by target @var{THIS}.
Optional argument @var{MORESOURCE} is a list of additional sources to add to the
sources variable.
@end deffn
@deffn Method ede-proj-makefile-insert-commands :AFTER this
Insert the commands needed by target @var{THIS}.
For targets, insert the commands needed by the chosen compiler.
@end deffn
@deffn Method ede-proj-makefile-configuration-variables :AFTER this configuration
Return a list of configuration variables from @var{THIS}.
Use @var{CONFIGURATION} as the current configuration to query.
@end deffn
@node semantic-ede-proj-target-grammar
@subsection semantic-ede-proj-target-grammar
@tgindex semantic-ede-proj-target-grammar
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item semantic-ede-proj-target-grammar
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-compile-target :AFTER obj
Compile all sources in a Lisp target @var{OBJ}.
@end deffn
@deffn Method ede-proj-makefile-insert-rules :AFTER this
Insert rules needed by @var{THIS} target.
@end deffn
@deffn Method ede-buffer-mine :AFTER this buffer
Return @code{t} if object @var{THIS} lays claim to the file in @var{BUFFER}.
Lays claim to all -by.el, and -wy.el files.
@end deffn
@deffn Method ede-proj-makefile-sourcevar :AFTER this
Return the variable name for @var{THIS}'s sources.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-dependencies :AFTER this
Insert dist dependencies, or intermediate targets.
This makes sure that all grammar lisp files are created before the dist
runs, so they are always up to date.
Argument @var{THIS} is the target that should insert stuff.
@end deffn
@node ede-proj-target-makefile-objectcode
@subsection ede-proj-target-makefile-objectcode
@tgindex ede-proj-target-makefile-objectcode
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item ede-proj-target-makefile-objectcode
@table @asis
@item Children:
@xref{ede-proj-target-makefile-archive}, @xref{ede-proj-target-makefile-program}.
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :configuration-variables
Type: @code{list} @*
Default Value: @code{("debug" ("CFLAGS" . "-g") ("LDFLAGS" . "-g"))}
@xref{ede-proj-target-makefile}.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-buffer-header-file :AFTER this buffer
There are no default header files.
@end deffn
@deffn Method ede-proj-makefile-sourcevar :AFTER this
Return the variable name for @var{THIS}'s sources.
@end deffn
@deffn Method ede-proj-makefile-insert-variables :AFTER this &optional moresource
Insert variables needed by target @var{THIS}.
Optional argument @var{MORESOURCE} is not used.
@end deffn
@deffn Method ede-proj-makefile-dependency-files :AFTER this
Return a list of source files to convert to dependencies.
Argument @var{THIS} is the target to get sources from.
@end deffn
@node ede-proj-target-makefile-archive
@subsection ede-proj-target-makefile-archive
@tgindex ede-proj-target-makefile-archive
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item ede-proj-target-makefile-objectcode
@xref{ede-proj-target-makefile-objectcode}.
@table @code
@item ede-proj-target-makefile-archive
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-makefile-insert-rules :AFTER this
Create the make rule needed to create an archive for @var{THIS}.
@end deffn
@deffn Method ede-proj-makefile-insert-source-variables :PRIMARY this
Insert bin_PROGRAMS variables needed by target @var{THIS}.
We aren't actually inserting SOURCE details, but this is used by the
Makefile.am generator, so use it to add this important bin program.
@end deffn
@node ede-proj-target-makefile-program
@subsection ede-proj-target-makefile-program
@tgindex ede-proj-target-makefile-program
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item ede-proj-target-makefile-objectcode
@xref{ede-proj-target-makefile-objectcode}.
@table @code
@item ede-proj-target-makefile-program
@table @asis
@item Children:
@xref{ede-proj-target-makefile-shared-object}.
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :ldlibs
Type: @code{list} @*
Default Value: @code{nil}
Libraries, such as "m" or "Xt" which this program depends on.
The linker flag "-l" is automatically prepended. Do not include a "lib"
prefix, or a ".so" suffix.
Note: Currently only used for Automake projects.
@item :ldflags
Type: @code{list} @*
Default Value: @code{nil}
Additional flags to add when linking this target.
Use ldlibs to add addition libraries. Use this to specify specific
options to the linker.
Note: Not currently used. This bug needs to be fixed.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-debug-target :AFTER obj
Debug a program target @var{OBJ}.
@end deffn
@deffn Method ede-proj-makefile-insert-rules :AFTER this
Insert rules needed by @var{THIS} target.
@end deffn
@deffn Method ede-proj-makefile-insert-automake-post-variables :AFTER this
Insert bin_PROGRAMS variables needed by target @var{THIS}.
@end deffn
@deffn Method ede-proj-makefile-insert-automake-pre-variables :AFTER this
Insert bin_PROGRAMS variables needed by target @var{THIS}.
@end deffn
@node ede-proj-target-makefile-shared-object
@subsection ede-proj-target-makefile-shared-object
@tgindex ede-proj-target-makefile-shared-object
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item ede-proj-target-makefile-objectcode
@xref{ede-proj-target-makefile-objectcode}.
@table @code
@item ede-proj-target-makefile-program
@xref{ede-proj-target-makefile-program}.
@table @code
@item ede-proj-target-makefile-shared-object
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-configure-add-missing :AFTER this
Query if any files needed by @var{THIS} provided by automake are missing.
Results in --add-missing being passed to automake.
@end deffn
@deffn Method ede-proj-makefile-sourcevar :AFTER this
Return the variable name for @var{THIS}'s sources.
@end deffn
@deffn Method ede-proj-makefile-insert-automake-post-variables :AFTER this
Insert bin_PROGRAMS variables needed by target @var{THIS}.
We need to override -program which has an LDADD element.
@end deffn
@deffn Method ede-proj-makefile-target-name :AFTER this
Return the name of the main target for @var{THIS} target.
@end deffn
@deffn Method ede-proj-makefile-insert-automake-pre-variables :AFTER this
Insert bin_PROGRAMS variables needed by target @var{THIS}.
We aren't actually inserting SOURCE details, but this is used by the
Makefile.am generator, so use it to add this important bin program.
@end deffn
@node ede-proj-target-elisp
@subsection ede-proj-target-elisp
@tgindex ede-proj-target-elisp
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item ede-proj-target-elisp
@table @asis
@item Children:
@xref{ede-proj-target-elisp-autoloads}.
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :aux-packages
Type: @code{list} @*
Default Value: @code{nil}
Additional packages needed.
There should only be one toplevel package per auxiliary tool needed.
These packages location is found, and added to the compile time
load path.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-compile-target :AFTER obj
Compile all sources in a Lisp target @var{OBJ}.
Bonus: Return a cons cell: (COMPILED . UPTODATE).
@end deffn
@deffn Method ede-proj-flush-autoconf :AFTER this
Flush the configure file (current buffer) to accommodate @var{THIS}.
@end deffn
@deffn Method ede-buffer-mine :AFTER this buffer
Return @code{t} if object @var{THIS} lays claim to the file in @var{BUFFER}.
Lays claim to all .elc files that match .el files in this target.
@end deffn
@deffn Method ede-proj-makefile-sourcevar :AFTER this
Return the variable name for @var{THIS}'s sources.
@end deffn
@deffn Method ede-proj-tweak-autoconf :AFTER this
Tweak the configure file (current buffer) to accommodate @var{THIS}.
@end deffn
@deffn Method ede-update-version-in-source :AFTER this version
In a Lisp file, updated a version string for @var{THIS} to @var{VERSION}.
There are standards in Elisp files specifying how the version string
is found, such as a @code{-version} variable, or the standard header.
@end deffn
@node ede-proj-target-elisp-autoloads
@subsection ede-proj-target-elisp-autoloads
@tgindex ede-proj-target-elisp-autoloads
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item ede-proj-target-elisp
@xref{ede-proj-target-elisp}.
@table @code
@item ede-proj-target-elisp-autoloads
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :aux-packages
Type: @code{list} @*
Default Value: @code{("cedet-autogen")}
@xref{ede-proj-target-elisp}.
@item :autoload-file
Type: @code{string} @*
Default Value: @code{"loaddefs.el"}
The file that autoload definitions are placed in.
There should be one load defs file for a given package. The load defs are created
for all Emacs Lisp sources that exist in the directory of the created target.
@item :autoload-dirs
Type: @code{list} @*
Default Value: @code{nil}
The directories to scan for autoload definitions.
If @code{nil} defaults to the current directory.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-makefile-dependencies :AFTER this
Return a string representing the dependencies for @var{THIS}.
Always return an empty string for an autoloads generator.
@end deffn
@deffn Method project-compile-target :AFTER obj
Create or update the autoload target.
@end deffn
@deffn Method ede-proj-flush-autoconf :AFTER this
Flush the configure file (current buffer) to accommodate @var{THIS}.
@end deffn
@deffn Method ede-buffer-mine :AFTER this buffer
Return @code{t} if object @var{THIS} lays claim to the file in @var{BUFFER}.
Lays claim to all .elc files that match .el files in this target.
@end deffn
@deffn Method ede-proj-makefile-sourcevar :AFTER this
Return the variable name for @var{THIS}'s sources.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-dependencies :AFTER this
Insert any symbols that the DIST rule should depend on.
Emacs Lisp autoload files ship the generated .el files.
Argument @var{THIS} is the target which needs to insert an info file.
@end deffn
@deffn Method ede-proj-tweak-autoconf :AFTER this
Tweak the configure file (current buffer) to accommodate @var{THIS}.
@end deffn
@deffn Method ede-update-version-in-source :AFTER this version
In a Lisp file, updated a version string for @var{THIS} to @var{VERSION}.
There are standards in Elisp files specifying how the version string
is found, such as a @code{-version} variable, or the standard header.
@end deffn
@deffn Method ede-proj-compilers :AFTER obj
List of compilers being used by @var{OBJ}.
If the @code{compiler} slot is empty, get the car of the compilers list.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-filepatterns :AFTER this
Insert any symbols that the DIST rule should distribute.
Emacs Lisp autoload files ship the generated .el files.
Argument @var{THIS} is the target which needs to insert an info file.
@end deffn
@deffn Method ede-proj-makefile-insert-source-variables :AFTER this &optional moresource
Insert the source variables needed by @var{THIS}.
Optional argument @var{MORESOURCE} is a list of additional sources to add to the
sources variable.
@end deffn
@node ede-proj-target-makefile-miscelaneous
@subsection ede-proj-target-makefile-miscelaneous
@tgindex ede-proj-target-makefile-miscelaneous
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item ede-proj-target-makefile-miscelaneous
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :submakefile
Type: @code{string} @*
Default Value: @code{""}
Miscellaneous sources which have a specialized makefile.
The sub-makefile is used to build this target.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-makefile-insert-rules :AFTER this
Create the make rule needed to create an archive for @var{THIS}.
@end deffn
@deffn Method ede-proj-makefile-sourcevar :AFTER this
Return the variable name for @var{THIS}'s sources.
@end deffn
@deffn Method ede-proj-makefile-dependency-files :AFTER this
Return a list of files which @var{THIS} target depends on.
@end deffn
@node ede-proj-target-makefile-info
@subsection ede-proj-target-makefile-info
@tgindex ede-proj-target-makefile-info
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-makefile
@xref{ede-proj-target-makefile}.
@table @code
@item ede-proj-target-makefile-info
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :mainmenu
Type: @code{string} @*
Default Value: @code{""}
The main menu resides in this file.
All other sources should be included independently.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-configure-add-missing :AFTER this
Query if any files needed by @var{THIS} provided by automake are missing.
Results in --add-missing being passed to automake.
@end deffn
@deffn Method object-write :AFTER this
Before committing any change to @var{THIS}, make sure the mainmenu is first.
@end deffn
@deffn Method ede-proj-makefile-sourcevar :AFTER this
Return the variable name for @var{THIS}'s sources.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-dependencies :AFTER this
Insert any symbols that the DIST rule should depend on.
Texinfo files want to insert generated @file{.info} files.
Argument @var{THIS} is the target which needs to insert an info file.
@end deffn
@deffn Method ede-proj-makefile-target-name :AFTER this
Return the name of the main target for @var{THIS} target.
@end deffn
@deffn Method ede-documentation :AFTER this
Return a list of files that provides documentation.
Documentation is not for object @var{THIS}, but is provided by @var{THIS} for other
files in the project.
@end deffn
@deffn Method ede-proj-makefile-insert-dist-filepatterns :AFTER this
Insert any symbols that the DIST rule should depend on.
Texinfo files want to insert generated @file{.info} files.
Argument @var{THIS} is the target which needs to insert an info file.
@end deffn
@deffn Method ede-proj-makefile-insert-source-variables :AFTER this &optional moresource
Insert the source variables needed by @var{THIS} info target.
Optional argument @var{MORESOURCE} is a list of additional sources to add to the
sources variable.
Does the usual for Makefile mode, but splits source into two variables
when working in Automake mode.
@end deffn
@node ede-proj-target-scheme
@subsection ede-proj-target-scheme
@tgindex ede-proj-target-scheme
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item ede-proj-target
@xref{ede-proj-target}.
@table @code
@item ede-proj-target-scheme
No children
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :interpreter
Type: @code{string} @*
Default Value: @code{"guile"}
The preferred interpreter for this code.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-tweak-autoconf :AFTER this
Tweak the configure file (current buffer) to accommodate @var{THIS}.
@end deffn
@node project-am-target
@subsection project-am-target
@tgindex project-am-target
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item project-am-target
@table @asis
@item Children:
@xref{project-am-objectcode}, @w{project-am-header,} @xref{project-am-lisp}, @xref{project-am-texinfo}, @xref{project-am-man}.
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-compile-target-command :AFTER this
Default target to use when compiling a given target.
@end deffn
@deffn Method project-make-dist :AFTER this
Run the current project in the debugger.
@end deffn
@deffn Method project-edit-file-target :AFTER obj
Edit the target associated with this file.
@end deffn
@node project-am-objectcode
@subsection project-am-objectcode
@tgindex project-am-objectcode
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item project-am-target
@xref{project-am-target}.
@table @code
@item project-am-objectcode
@table @asis
@item Children:
@xref{project-am-program}, @w{project-am-lib.}
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-am-macro :AFTER this
Return the default macro to 'edit' for this object type.
@end deffn
@deffn Method project-debug-target :AFTER obj
Run the current project target in a debugger.
@end deffn
@deffn Method project-compile-target-command :AFTER this
Default target to use when compiling an object code target.
@end deffn
@deffn Method ede-buffer-header-file :AFTER this buffer
There are no default header files.
@end deffn
@node project-am-program
@subsection project-am-program
@tgindex project-am-program
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item project-am-target
@xref{project-am-target}.
@table @code
@item project-am-objectcode
@xref{project-am-objectcode}.
@table @code
@item project-am-program
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :ldadd @*
Default Value: @code{nil}
Additional LD args.
@end table
@end table
@node project-am-header-noinst
@subsection project-am-header-noinst
@tgindex project-am-header-noinst
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item project-am-target
@xref{project-am-target}.
@table @code
@item @w{project-am-header.}
@table @code
@item project-am-header-noinst
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-am-macro :AFTER this
Return the default macro to 'edit' for this object.
@end deffn
@node project-am-header-inst
@subsection project-am-header-inst
@tgindex project-am-header-inst
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item project-am-target
@xref{project-am-target}.
@table @code
@item @w{project-am-header.}
@table @code
@item project-am-header-inst
No children
@end table
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-am-macro :AFTER this
Return the default macro to 'edit' for this object.
@end deffn
@node project-am-lisp
@subsection project-am-lisp
@tgindex project-am-lisp
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item project-am-target
@xref{project-am-target}.
@table @code
@item project-am-lisp
No children
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-am-macro :AFTER this
Return the default macro to 'edit' for this object.
@end deffn
@node project-am-texinfo
@subsection project-am-texinfo
@tgindex project-am-texinfo
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item project-am-target
@xref{project-am-target}.
@table @code
@item project-am-texinfo
No children
@end table
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :include @*
Default Value: @code{nil}
Additional texinfo included in this one.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-am-macro :AFTER this
Return the default macro to 'edit' for this object type.
@end deffn
@deffn Method project-compile-target-command :AFTER this
Default target to use when compiling a texinfo file.
@end deffn
@deffn Method ede-documentation :AFTER this
Return a list of files that provides documentation.
Documentation is not for object @var{THIS}, but is provided by @var{THIS} for other
files in the project.
@end deffn
@node project-am-man
@comment node-name, next, previous, up
@subsection project-am-man
@tgindex project-am-man
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-speedbar
@table @code
@item eieio-speedbar-directory-button
@table @code
@item ede-target
@xref{ede-target}.
@table @code
@item project-am-target
@xref{project-am-target}.
@table @code
@item project-am-man
No children
@end table
@end table
@end table
@end table
@end table
@end table
@subsubsection Specialized Methods
@deffn Method project-am-macro :AFTER this
Return the default macro to 'edit' for this object type.
@end deffn
@node Sourcecode
@section Sourcecode
The source code type is an object designed to associated files with
targets.
@menu
* ede-sourcecode::
@end menu
@node ede-sourcecode
@subsection ede-sourcecode
@scindex ede-sourcecode
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-instance-inheritor
@table @code
@item ede-sourcecode
No children
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :parent-instance
Type: @code{eieio-instance-inheritor-child}
The parent of this instance.
If a slot of this class is reference, and is unbound, then the parent
is checked for a value.
@item :name
Type: @code{string}
The name of this type of source code.
Such as "C" or "Emacs Lisp"
@item :sourcepattern
Type: @code{string} @*
Default Value: @code{".*"}
Emacs regex matching sourcecode this target accepts.
@item :auxsourcepattern
Type: @code{(or null string)} @*
Default Value: @code{nil}
Emacs regex matching auxiliary source code this target accepts.
Aux source are source code files needed for compilation, which are not compiled
themselves.
@item :enable-subdirectories
Type: @code{boolean} @*
Default Value: @code{nil}
Non-@code{nil} if this sourcecode type uses subdirectores. If
sourcecode always lives near the target creating it, this should be
@code{nil}. If sourcecode can, or typically lives in a subdirectory
of the owning target, set this to @code{t}.
@item :garbagepattern
Type: @code{list} @*
Default Value: @code{nil}
Shell file regex matching files considered as garbage.
This is a list of items added to an @code{rm} command when executing a @code{clean}
type directive.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-want-any-files-p :AFTER this filenames
Return non-@code{nil} if @var{THIS} will accept any files in @var{FILENAMES}.
@end deffn
@deffn Method ede-want-any-source-files-p :AFTER this filenames
Return non-@code{nil} if @var{THIS} will accept any source files in @var{FILENAMES}.
@end deffn
@deffn Method ede-want-any-auxiliary-files-p :AFTER this filenames
Return non-@code{nil} if @var{THIS} will accept any aux files in @var{FILENAMES}.
@end deffn
@deffn Method ede-buffer-header-file :AFTER this filename
Return a list of file names of header files for @var{THIS} with @var{FILENAME}.
Used to guess header files, but uses the auxsource regular expression.
@end deffn
@deffn Method ede-want-file-p :AFTER this filename
Return non-@code{nil} if sourcecode definition @var{THIS} will take @var{FILENAME}.
@end deffn
@deffn Method ede-want-file-source-p :AFTER this filename
Return non-@code{nil} if @var{THIS} will take @var{FILENAME} as an auxiliary .
@end deffn
@deffn Method ede-want-file-auxiliary-p :AFTER this filename
Return non-@code{nil} if @var{THIS} will take @var{FILENAME} as an auxiliary .
@end deffn
@node Compilers
@section Compilers
The compiler object is designed to associate source code with
compilers. The target then references the compilers it can use.
When the makefile is created, this object type knows how to create
compile commands.
@menu
* ede-compilation-program::
* ede-compiler::
* ede-object-compiler::
* ede-linker::
@end menu
@node ede-compilation-program
@subsection ede-compilation-program
@cmindex ede-compilation-program
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-instance-inheritor
@table @code
@item ede-compilation-program
@table @asis
@item Children:
@xref{ede-compiler}, @xref{ede-linker}.
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :parent-instance
Type: @code{eieio-instance-inheritor-child}
The parent of this instance.
If a slot of this class is reference, and is unbound, then the parent
is checked for a value.
@item :name
Type: @code{string}
Name of this type of compiler.
@item :variables
Type: @code{list}
Variables needed in the Makefile for this compiler.
An assoc list where each element is (VARNAME . VALUE) where VARNAME
is a string, and VALUE is either a string, or a list of strings.
For example, GCC would define CC=gcc, and emacs would define EMACS=emacs.
@item :sourcetype
Type: @code{list}
A list of @code{ede-sourcecode} @xref{ede-sourcecode}. objects this class will handle.
This is used to match target objects with the compilers and linkers
they can use, and which files this object is interested in.
@item :rules
Type: @code{list} @*
Default Value: @code{nil}
Auxiliary rules needed for this compiler to run.
For example, yacc/lex files need additional chain rules, or inferences.
@item :commands
Type: @code{list}
The commands used to execute this compiler.
The object which uses this compiler will place these commands after
its rule definition.
@item :autoconf
Type: @code{list} @*
Default Value: @code{nil}
Autoconf function to call if this type of compiler is used.
When a project is in Automake mode, this defines the autoconf function to
call to initialize automake to use this compiler.
For example, there may be multiple C compilers, but they all probably
use the same autoconf form.
@item :objectextention
Type: @code{string}
A string which is the extension used for object files.
For example, C code uses .o on unix, and Emacs Lisp uses .elc.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-flush-autoconf :AFTER this
Flush the configure file (current buffer) to accommodate @var{THIS}.
@end deffn
@deffn Method ede-proj-makefile-insert-rules :AFTER this
Insert rules needed for @var{THIS} compiler object.
@end deffn
@deffn Method ede-proj-makefile-insert-variables :AFTER this
Insert variables needed by the compiler @var{THIS}.
@end deffn
@deffn Method ede-proj-makefile-insert-commands :AFTER this
Insert the commands needed to use compiler @var{THIS}.
The object creating makefile rules must call this method for the
compiler it decides to use after inserting in the rule.
@end deffn
@deffn Method ede-object-sourcecode :AFTER this
Retrieves the slot @code{sourcetype} from an object of class @code{ede-compilation-program}
@end deffn
@deffn Method ede-proj-tweak-autoconf :AFTER this
Tweak the configure file (current buffer) to accommodate @var{THIS}.
@end deffn
@node ede-compiler
@subsection ede-compiler
@cmindex ede-compiler
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-instance-inheritor
@table @code
@item ede-compilation-program
@xref{ede-compilation-program}.
@table @code
@item ede-compiler
@table @asis
@item Children:
@xref{ede-object-compiler}, @w{semantic-ede-grammar-compiler-class.}
@end table
@end table
@end table
@end table
@end table
Create a new object with name NAME of class type ede-compiler
@table @asis
@item Slots:
@table @code
@item :parent-instance
Type: @code{eieio-instance-inheritor-child}
The parent of this instance.
If a slot of this class is reference, and is unbound, then the parent
is checked for a value.
@item :name
Type: @code{string}
Name of this type of compiler.
@item :variables
Type: @code{list}
Variables needed in the Makefile for this compiler.
An assoc list where each element is (VARNAME . VALUE) where VARNAME
is a string, and VALUE is either a string, or a list of strings.
For example, GCC would define CC=gcc, and emacs would define EMACS=emacs.
@item :sourcetype
Type: @code{list}
A list of @code{ede-sourcecode} @xref{ede-sourcecode}. objects this class will handle.
This is used to match target objects with the compilers and linkers
they can use, and which files this object is interested in.
@item :commands
Type: @code{list}
The commands used to execute this compiler.
The object which uses this compiler will place these commands after
its rule definition.
@item :objectextention
Type: @code{string}
A string which is the extension used for object files.
For example, C code uses .o on unix, and Emacs Lisp uses .elc.
@item :makedepends
Type: @code{boolean} @*
Default Value: @code{nil}
Non-@code{nil} if this compiler can make dependencies.
@item :uselinker
Type: @code{boolean} @*
Default Value: @code{nil}
Non-@code{nil} if this compiler creates code that can be linked.
This requires that the containing target also define a list of available
linkers that can be used.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-makefile-insert-object-variables :AFTER this targetname sourcefiles
Insert an OBJ variable to specify object code to be generated for @var{THIS}.
The name of the target is @var{TARGETNAME} as a string. @var{SOURCEFILES} is the list of
files to be objectified.
Not all compilers do this.
@end deffn
@deffn Method ede-compiler-intermediate-objects-p :AFTER this
Return non-@code{nil} if @var{THIS} has intermediate object files.
If this compiler creates code that can be linked together,
then the object files created by the compiler are considered intermediate.
@end deffn
@deffn Method ede-compiler-intermediate-object-variable :AFTER this targetname
Return a string based on @var{THIS} representing a make object variable.
@var{TARGETNAME} is the name of the target that these objects belong to.
@end deffn
@node ede-object-compiler
@subsection ede-object-compiler
@cmindex ede-object-compiler
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-instance-inheritor
@table @code
@item ede-compilation-program
@xref{ede-compilation-program}.
@table @code
@item ede-compiler
@xref{ede-compiler}.
@table @code
@item ede-object-compiler
No children
@end table
@end table
@end table
@end table
@end table
@table @asis
@item Slots:
@table @code
@item :uselinker
Type: @code{boolean} @*
Default Value: @code{t}
@xref{ede-compiler}.
@item :dependencyvar
Type: @code{list}
A variable dedicated to dependency generation.
@end table
@end table
@subsubsection Specialized Methods
@deffn Method ede-proj-makefile-insert-variables :AFTER this
Insert variables needed by the compiler @var{THIS}.
@end deffn
@node ede-linker
@subsection ede-linker
@cmindex ede-linker
@table @asis
@item Inheritance Tree:
@table @code
@item eieio-instance-inheritor
@table @code
@item ede-compilation-program
@xref{ede-compilation-program}.
@table @code
@item ede-linker
No children
@end table
@end table
@end table
@end table
Create a new object with name NAME of class type ede-linker
@table @asis
@item Slots:
@table @code
@item :name
Type: @code{string}
Name of this type of compiler.
@item :variables
Type: @code{list}
Variables needed in the Makefile for this compiler.
An assoc list where each element is (VARNAME . VALUE) where VARNAME
is a string, and VALUE is either a string, or a list of strings.
For example, GCC would define CC=gcc, and emacs would define EMACS=emacs.
@item :sourcetype
Type: @code{list}
A list of @code{ede-sourcecode} @xref{ede-sourcecode}. objects this class will handle.
This is used to match target objects with the compilers and linkers
they can use, and which files this object is interested in.
@item :commands
Type: @code{list}
The commands used to execute this compiler.
The object which uses this compiler will place these commands after
its rule definition.
@item :objectextention
Type: @code{string}
A string which is the extension used for object files.
For example, C code uses .o on unix, and Emacs Lisp uses .elc.
@end table
@end table
@node GNU Free Documentation License
@appendix GNU Free Documentation License
@include doclicense.texi
@bye
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